FORMULATION OF THE LESOTHO ELECTRICATION MASTER PLAN · 2018-07-21 · 200kVA distribution...
Transcript of FORMULATION OF THE LESOTHO ELECTRICATION MASTER PLAN · 2018-07-21 · 200kVA distribution...
CRIS 2017/387289/1
FWC Beneficiaries 2013 - Lot 4 - Energy and Nuclear Safety
FORMULATION OF THE
LESOTHO ELECTRICATION
MASTER PLAN
Grid Development Plan Report
(Draft)
This project is funded by
The European Union
A project implemented by
AETS Consortium
DELEGATION of the EUROPEAN UNION
Lesotho
Formulation of the Electrification Master Plan
Contract N°2017/387289/1
FWC Beneficiaries 2013 - Lot 4 - Energy and Nuclear Safety
Grid Development Plan Report
(Draft)
22 June 2018
Drafted by:
Thyrsos Hadjicostas
Dayalin Padayachy
Reviewed by:
Ralf Tobich
The contents of this publication are the sole responsibility of AETS Consortium and can in no way be taken to reflect the views of the European Union
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium – 22 June 2018 i
Table of Contents
1 EXECUTIVE SUMMARY ___________________________________________ 4
2 INTRODUCTION __________________________________________________ 7
2.1 SCOPE OF THE GRID DEVELOPMENT PLAN ___________________________________ 7
2.2 METHDOLOGY ____________________________________________________________ 7
3 EXISTING GRID AND SYSTEM EXPANSION PLAN___________________ 9
4 GRID ELECTRIFICATION GUIDELINES ___________________________ 13
4.1 MEDIUM VOLTAGE (MV) DISTRIBUTION SYSTEM ____________________________ 13
4.1.1 HV Poles __________________________________________________________ 13
4.1.2 MV Conductor ______________________________________________________ 15
4.2 LOW VOLTAGE (LV) DISTRIBUTION SYSTEM ________________________________ 18
4.2.1 LV Poles ___________________________________________________________ 18
4.2.2 LV Conductor _______________________________________________________ 19
4.2.3 Service Connection ___________________________________________________ 20
4.3 DISTRIBUTION TRANSFORMER ____________________________________________ 21
5 PLANNING AND DESIGN CRITERIA _______________________________ 22
5.1 PLANNING CRITERIA______________________________________________________ 22
5.1.1 Voltage limits _______________________________________________________ 22
5.1.2 Current or thermal limits ______________________________________________ 22
5.1.3 Security of supply ____________________________________________________ 22
5.2 DESIGN CRITERIA ________________________________________________________ 22
5.2.1 Voltage ____________________________________________________________ 22
5.2.2 Redundancy ________________________________________________________ 22
5.2.3 Grid technology _____________________________________________________ 22
5.3 UNIT COSTS ______________________________________________________________ 22
6 GRID ELECTRIFICATION TIME-PLAN AND COST _________________ 24
6.1 OFF-GRID BUDGET ALLOCATION __________________________________________ 24
6.2 GRID ELECTRIFICATION EAS _______________________________________________ 24
6.3 TIME-PLAN_______________________________________________________________ 25
7 FUTURE GRID PERFORMANCE SIMULATIONS ____________________ 29
7.1 LOAD FORECAST _________________________________________________________ 29
7.2 LOAD FLOW RESULTS _____________________________________________________ 31
7.2.1 Present Situation _____________________________________________________ 31
7.2.2 Year 5 _____________________________________________________________ 31
7.2.3 Year 10 ____________________________________________________________ 35
7.2.4 Year 15 ____________________________________________________________ 36
7.2.5 Year 20 ____________________________________________________________ 39
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8 ANNEX __________________________________________________________ 41
8.1 ANNUAL GRID ELECTRIFICATION ROLL-OUT SCHEDULE _____________________ 41
LIST OF FIGURES
Figure 1: Existing Electricity Transmission and Distribution Network. __________________________ 9 Figure 2: Future Electricity Transmission and Distribution Network ___________________________ 10 Figure 3: Attachment Heights for a 11kV Vertical Configuration ________________________________ Figure 4: Cost of Losses for a Range of Typical ACSR Conductor _____________________________ 16 Figure 5: LCC for a Range of Typical ACSR Conductor ____________________________________ 16 Figure 6: Typical Configuration of a 2-Phase System _______________________________________ 17 Figure 7: Typical Configuration of a SWER System ________________________________________ 17 Figure 8: Power Transfer Capability of 3-Phase, 2-Phase and SWER __________________________ 18 Figure 9: Circuit Diagram for Split-Phase System _________________________________________ 20 Figure 10: Annual Budget Allocation for Grid and Off-Grid _________________________________ 24 Figure 11: Existing Grid-Electrified EAs (in green) ________________________________________ 26 Figure 12: Additional Grid-Electrified EAs in 5 Years (green) _______________________________ 27 Figure 13: Additional Grid-Electrified EAs in 10 Years (brown)______________________________ 27 Figure 14: Additional Grid-Electrified EAs in 15 Years (purple) _____________________________ 28 Figure 15: Additional Grid-Electrified EAs in 20 Years (pink) _______________________________ 28 Figure 16: Present Load Flow Results __________________________________________________ 32 Figure 17: Network Extension by Year 5 (According to LEC Expansion Plan) ___________________ 33 Figure 18: Year 5 Load Flow Results ___________________________________________________ 34 Figure 19: Network Extension by Year 10 (According to LEC Expansion Plan) __________________ 35 Figure 20: Year 10 Load Flow Results __________________________________________________ 37 Figure 21: Year 15 Load Flow Results __________________________________________________ 38 Figure 22: Year 20 Load Flow Results __________________________________________________ 40
LIST OF TABLES
Table 1: LEC System Expansion Plan Projects1 ___________________________________________ 11
Table 2: Cost of Wood Poles __________________________________________________________ 14
Table 3: 2-Phase and 3-Phase Clearances _______________________________________________ 15
Table 4: Clearances for ABC Conductors ________________________________________________ 19
Table 5: Comparison between 3-Phase, Dual-Phase and 1-Phase _____________________________ 20
Table 6: Distribution Transformer Sizes _________________________________________________ 21
Table 7: Unit Construction Costs ______________________________________________________ 23
Table 8: Analysis of Typical Grid Electrification Project ____________________________________ 23
Table 9: Grid Electrification Overview over 20 Years ______________________________________ 24
Table 10: Annual Grid Electrification Roll-Out Summary ___________________________________ 25
Table 11: Substation Forecast _________________________________________________________ 29
Table 12: Year 5 Thermal Violations ____________________________________________________ 33
Table 13: Year 10 Thermal Violations ___________________________________________________ 36
Table 14: Year 15 Thermal Violations ___________________________________________________ 36
Table 15: Year 20 Thermal Violations ___________________________________________________ 39
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List of Acronyms
AAAC all aluminium alloy conductor
ABC aerial bundle conductor
ACSR aluminium conductor steel reinforced
AETS Application Européenne de Technologies et de Services
EA enumerator area
EDM Electricite de Mozambique
EMP Electrification Master Plan 2017
EU European Union
EUD European Union Delegation
GDP gross domestic product
IRR internal rate of return
kW kilowatt-hours
kVA kilovolt-ampere
LCC life-cycle cost
LEC Lesotho Electricity Company
LNDC Lesotho National Development Corporation
LV low voltage
M Lesotho Maloti (currency)
MEM Ministry of Energy and Meteorology
MV medium voltage
MWh megawatt-hours
NSDP National Strategic Development Plan
SDGs sustainable development goals
SWER single wire earth return
TWG Technical Working Group for the EMP
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1 EXECUTIVE SUMMARY
This report represents the prioritised 2017 – 2036 Grid Development Plan for the
electrification of Lesotho. It covers a 20-year time horizon and is meant to enable
systematic, predictable and equitable off-grid electricity roll-out, with a view to enhance
quality of life, provide income-generating opportunities and alleviate poverty in Lesotho.
The Grid Development Plan caters for all those areas of Lesotho that are economically
feasible to be reached by the national power grid. It uses current LEC technical standards
and pricing and takes account of the utility’s planned network expansion and extensions.
Network performance simulations were conducted at 5-year intervals.
A sustained annual electrification budget of M 150 million is assumed for the EMP, based
on the current level of government budget allocation for this purpose. The Ministry of
Energy and Meteorology (MEM) decreed that 80% of this budget – M 120 million per
year – shall be allocated to grid electrification for the time being, with the balance – M 30
million per year – going towards off-grid electrification.
The planning methodology was discussed and agreed with stakeholders via the Technical
Working Group (TWG), to ensure alignment with current thinking and the country’s
goals and needs. The EMP also takes cognisance of the country’s development objectives.
While the EMP would ideally have used village-level planning, this was not possible
because essential village data – number of households per village – was not available.
Instead, enumerator area (EA) data from the 2016 census is used as the primary building
block for the electrification planning.
The prioritisation of grid projects followed the methodology described in the separate
report titled ‘Action & Investment Plan’ that forms part of the EMP and resulted in annual
electrification schedules that fit within the available budget. The prioritisation algorithm
provided for a 2-stage process, with the first stage separating grid and off-grid EAs and
the second stage ranking projects in priority order. EAs were evaluated based on the
number of households, public buildings, anchor customers, agreed weighting factors etc.
and a scoring was assigned to each EA, with a higher score indicating a higher priority
ranking.
The grid demand forecast methodology and outcome is documented in the Demand
Forecast Report’ (dated 5 April 2018). For existing customers, the methodology
comprises regression analysis based on the gross domestic product (GDP) growth rate for
all customer categories except households, which were assumed to retain constant
demand. For future customers, the methodology comprises spatial analysis to determine
potential future customer numbers.
A critical process prior to planning a future rural electricity network is the standardisation
of the equipment, technology and network configurations that will be utilised. The
existing LEC Engineering Management Manuals have been consulted to ensure there is
alignment with current thinking and practices.
It is important to realise that the characteristics of rural customers will differ from those
in urban areas, mainly in their density and load requirements, and this needs to be
reflected in the network design. Rural networks are often characterised by long lines, low
voltages and light loading. It is therefore important that appropriate technology choices
are made in order to ensure that costs are contained without compromising quality of
supply standards.
Planning criteria are then set to define the conditions under which the grid will be
expanded. A typical grid electrification project yields an average cost per grid
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electrification connection of around M 15,000 which is made up of the following
components:
COMPONENT COST [M]
2 km of 11kV 3-phase line 380,000
200kVA distribution transformer (11/0.4kV) 66,660
12 km of LV lines 1,206,768
150 LV service connections 600,000
TOTAL COST 2,253,428
Cost per connection M 15,023
The future electricity transmission and distribution network of Lesotho will develop as
depicted on the map below, in accordance with LEC’s system expansion plan.
With an annual investment of M 120 million an average of 7,756 grid connections can be
provided each year, i.e. 155,127 connections – 97% of which are household connections
– for a total budget over 20 years of around M 2.33 billion. 1 399 EAs will be grid-
electrified in this time, with a total load of 73,468 kVA and an annual energy consumption
of 455,672 MWh. The breakdown of these figures by customer category is as follows:
EA Infrastructure to be
Electrified
Number of
Connections Load (kVA)
Energy
Consumed
[MWh/annum]
Households 150,062 68,924 414,319
Hotels and Guest Houses 26 58 363,066
Other Businesses 3,675 3,418 21,706
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EA Infrastructure to be
Electrified
Number of
Connections Load (kVA)
Energy
Consumed
[MWh/annum]
Primary Schools 453 424 5,910
Secondary Schools 15
Clinics 1
126 1,203 Health Centres 54
Hospitals 1
Hostels 22
Agricultural Resource Centres 17 15 113
Community Council Offices 12 12 89
Principal Chief’s Offices 6 7 53
Local Courts 10 7 71
Police Stations 11 33 337
Post Offices 11 7 74
Other Government Facilities 11 5 41
Churches 740 432 2,745
TOTAL 155,127 73,468 455,672
When all these connections are made, the technical losses will amount to 28,252 MWh
per annum and the total annual operating cost will reach around M 76.5 million.
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2 INTRODUCTION
In August 2017, the European Union Delegation (EUD) appointed AETS Consortium
(the Consultant) to undertake the “Formulation of the Electrification Master Plan” for
Lesotho. This electrification master plan (EMP) covers a 20-year time horizon and caters
for both grid and off-grid electrification. It is meant to enable systematic, predictable and
equitable grid expansion and off-grid electricity roll-out, with a view to enhance quality
of life, provide income-generating opportunities and alleviate poverty in Lesotho.
This report represents the prioritised 2017–2036 Grid Development Plan for the
electrification of Lesotho. It forms part of the overall EMP which also includes a
prioritised Off-Grid Master Plan for the same period.
2.1 SCOPE OF THE GRID DEVELOPMENT PLAN
The mountainous terrain and low population density in the Senqu River Valley, Foothills
and Highlands render grid extension largely unfeasible, which justifies electrification by
off-grid means. The Grid Development Plan caters for all those areas of Lesotho that are
economically feasible to be reached by the national power grid.
A sustained annual electrification budget of M 150 million is assumed for the EMP, based
on the current level of government budget allocation for this purpose. The Ministry of
Energy and Meteorology (MEM) decreed that 80% of this budget – M 120 million per
year – shall be allocated to grid electrification for the time being, with the balance – M
30 million per year – going towards off-grid electrification.
While the EMP would ideally have used village-level planning, this was not possible
because essential village data – number of households per village – was not available.
Instead, enumerator area (EA) data from the 2016 census is used as the primary building
block for the electrification planning.
2.2 METHDOLOGY
The Grid Development Plan uses current LEC technical standards and pricing and takes
account of the utility’s planned network expansion and extensions. Network performance
simulations were conducted at 5-year intervals.
The prioritisation of grid projects followed the methodology described in the separate
report titled ‘Action & Investment Plan’ that forms part of the EMP and resulted in annual
electrification schedules that fit within the available budget. The prioritisation algorithm
provided for a 2-stage process, with the first stage separating grid and off-grid EAs and
the second stage ranking projects in priority order. EAs were evaluated based on the
number of households, public buildings, anchor customers, agreed weighting factors etc.
and a scoring was assigned to each EA, with a higher score indicating a higher priority
ranking.
The grid demand forecast methodology and outcome is documented in the Demand
Forecast Report’ (dated 5 April 2018). For existing customers, the methodology
comprises regression analysis based on the gross domestic product (GDP) growth rate for
all customer categories except households, which were assumed to retain constant
demand. For future customers, the methodology comprises spatial analysis to determine
potential future customer numbers.
The planning methodology was discussed and agreed with stakeholders via the Technical
Working Group (TWG), to ensure alignment with current thinking and the country’s
goals and needs. The EMP also takes cognisance of the country’s development objectives
contained in the following documents:
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AETS Consortium – 22 June 2018 8
National Strategic Development Plan 2012/13 – 2016/17 – Key Goals
o Promote integrated and sustainable development in rural areas.
o Increase clean energy production capacity to attain self-sufficiency, export and
have a greener economy.
o Develop small-scale electricity generation models that are viable for communities,
where connection to the national power grid is not cost-effective.
o Develop basic infrastructure to increase access to services and markets and
strengthen linkages between rural and urban markets.
Lesotho Energy Policy 2015-2025
o Contributing towards the improvement of livelihoods: The energy sector will
contribute towards poverty alleviation in Lesotho. This will be achieved through
the creation of income generating opportunities that sustain and improve the lives
of people in the country through facilitating the provision of affordable
technologies and services.
o Integrating energy into national and sectoral planning as a catalyst for energy
effective utilisation to improve the livelihoods of the people of Lesotho as well as
driving the economic growth.
Lesotho Vision 2020
o Development of a strong economy and environmental considerations.
o Decentralizing services and power to empower communities at the grassroots.
o Development of a proper economic infrastructure, including roads,
telecommunications and electricity networks and reduction of the gap between the
rich and the poor.
o Development of the use of technology in all aspects of life. Ninety percent of
Basotho households will have access to electricity and thereby to communication
and development technology.
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AETS Consortium – 22 June 2018 9
3 EXISTING GRID AND SYSTEM EXPANSION PLAN
The electricity grid of Lesotho transfers power from the generation sources, namely
'Muela hydropower plant, Eskom (South Africa) and EDM (Mozambique), to the load
centres. The supply from 'Muela and Eskom plus EDM (at Maseru intake) is transmitted
through 132kV lines to Maputsoe and Mabote substations respectively. The supply from
Eskom (Clarence intake) enters Lesotho through an 88kV line at Khukhune substation in
Butha-Buthe, while Qacha's Nek intake is through a 22kV line from Matatiele.
The transmission lines are at 132kV, 88kV, 66kV and 33kV levels. However, there are
places where LEC also distributes at the 33kV level, e.g. Thabana Morena in Mafeteng.
The transmission voltages are stepped down to distribution voltages through 45
substations. Qacha's Nek and Mokhotlong districts are the only districts that are not
connected to the main national grid.
The distribution network distributes power from substations to electricity users,
transforming from the 11kV level to the customer supply at 220V (single-phase) and
380V (three-phase). The existing electricity transmission and distribution network (down
to the 11kV level) of Lesotho is depicted in Figure 1.
Figure 1: Existing Electricity Transmission and Distribution Network.
Once LEC’s system expansion plan is implemented, the electricity transmission and
distribution network of Lesotho will develop as depicted in Figure 2.
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Figure 2: Future Electricity Transmission and Distribution Network
LEC’s system expansion plan comprises the projects identified in Table 1.
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Table 1: LEC System Expansion Plan Projects1
Type of
Infrastructure From To Description Voltage Year
Length
(km)
Line Mphaki Sekake Connection of currently isolated Qacha's Nek to main grid 33kV 2020 50
Line St Agnes Maputsoe General reinforcement to meet existing demand growth 33kV 2020 30
Line Maputsoe Mapoteng General reinforcement to meet existing demand growth 33kV 2020 30
Line Thaba Tseka Mokhotlong Reinforcement of Thaba Tseka & Mokhotlong supply 33kV 2020 75
Line Morija Kolo To address existing demand growth & for new mining 33kV 2019 25
Line Botshabelo Ha Makhoathi General reinforcement to meet existing demand growth 33kV 2020 15
Line Hlotse Buth-Buthe General reinforcement to meet existing demand growth 33kV 2020 30
Line Katse ThabaTseka Reinforcement of Thaba Tseka supply 66kV 2022 50
Line Mohale's Hoek Mphaki To reinforce existing grid 132kV 2021 150
Line Muela Khukhune For reinforcement of South Africa connection and connecting of Letseng &
Mokhotlong to 132kV grid 132kV 2018 8
Line Khukhune Ha Belo To serve proposed new factories (LNDC) 132kV 2020 30
Line Liqhobong Lemphane To supply Lemphane mine 132kV 2021 25
Line Letseng Mothae To supply Mothae mine 33kV 2019 25
Line Mazenod Qacha's Nek General reinforcement to meet existing demand growth 132kV 2021 230
Line Mazenod Thetsane To achieve a 132kV grid "ring" connecting all regions of Lesotho 132kV 2021 25
Line Mt Moorosi Mosi To achieve a 132kV grid "ring" connecting all regions of Lesotho 132kV 2021 70
Line Lejone Polihali To achieve a 132kV grid "ring" connecting all regions of Lesotho 132kV 2021 80
Line Polihali Mokhotlong Related to new hydro/dam expected 132kV 2020 30
Line Letseng Mokhotlong To achieve a 132kV grid "ring" connecting all regions of Lesotho 132kV 2024 60
Line Khukhune Letseng To achieve a 132kV grid "ring" connecting all regions of Lesotho 132kV 2024 75
Line Letseng Liqhobong To achieve a 132kV grid "ring" connecting all regions of Lesotho 132kV 2024 50
Substation Substations at Ha Mofoka, Ramabanta, Semonkong, Ha Mosi, Ha Mpiti 2021
Substation Electrification of Ha Ramabanta, Semonkong, Ha Mosi, Ha Mpiti 2021
Customer
compensation Secure Line Route (compensation for 50 households) 2021
Substation Maseru South Substation 33/11kV 2019
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Type of
Infrastructure From To Description Voltage Year
Length
(km)
Substation Mapoteng Substation 33/11kV 2020
Substation Mokhotlong Substation 33/11kV 2020
Substation Kolo 33/11kv substation 33/11kV 2019
Substation Ha Makhoathi 33/11kV Substation 33/11kV 2020
Substation ThabaTseka Substation 66/11kV 2022
Substation Thetsane Substation 132/33kV 2021
Substation Ha Mofoka Switching Station 132kV 2021
Substation Upgrading of Khukhune to 132kV - for reinforcement of interconnection with South
Africa 132kV 2018
Substation Ha Ramabanta Substation 132/33/11kV 2021
Substation Semonkong Substation 132/33/11kV 2021
Substation Ha Mosi Substation 132/33/11kV 2021
Substation Ha Mpiti B Substation 132/33/11kV 2021
Substation Ha Belo Substation - for reinforcement of interconnection with South Africa 132/33/11kV 2020
Substation Lemphane Substation 132/33/11kV 2021
Substation Mothae Substation 33/11kV 2019
Other upgrades New switchroom SW12 switching station to address load growths at Limkokwin,
Lerotholi Polytechnic up to Mashoeshoe 2 2018
Other upgrades New switchgear at SW12 to address load growths at Limkokwin, Lerotholi Polytechnic
up to Mashoeshoe 2 2018
Other upgrades New Switching Station at Ha Foso to address loads in the northern part of Maseru 2018
Other upgrades Replacement of mini-sub & 3-way RMU that limit capacity at Palace of Justice, Hills
View, Husteds, CTC, Alliance, Sefika HS & Cenez Rd 2018
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AETS Consortium – 22 June 2018 13
4 GRID ELECTRIFICATION GUIDELINES
A critical process prior to planning a future rural electricity network is the standardisation
of the equipment, technology and network configurations that will be utilised. The
existing LEC Engineering Management Manuals have been consulted to ensure there is
alignment with current thinking and practices.
It is important to realise that the characteristics of rural customers will differ from those
in urban areas, mainly in their density and load requirements, and this needs to be
reflected in the network design. Rural networks are often characterised by long lines, low
voltages and light loading. It is therefore important that appropriate technology choices
are made in order to ensure that costs are contained without compromising quality of
supply standards.
4.1 MEDIUM VOLTAGE (MV) DISTRIBUTION SYSTEM
Prior to considering alternative technologies to reduce the distribution costs, it is
recommended that the existing network designs are optimised:
• Conductors should be optimized to handle realistic demands expected over the life
of the system with acceptable losses;
• Span lengths should be maximized to take advantage of the strength of conductors
while not exceeding clearance limits;
• Pole lengths should not exceed those necessary to meet ground clearance
requirements;
• Network designs should be standardized to minimize the use of specialized
engineering expertise.
4.1.1 HV Poles
LEC presently uses 12m wooden poles for medium voltage lines. As poles are one of the
costliest components of an electrification programme, significant cost reductions can be
achieved through optimisation, which could include the use of:
• Alternative pole materials;
• Shorter poles;
• Longer spans (to reduce the number of poles required).
Alternative pole materials
Poles can be made from a variety of materials, most frequently wood, concrete, and steel.
None of these has a clear-cut advantage in all situations, and both cost and specific
attributes associated with the various options are factors that should be considered.
It is important to note that the point of this exercise is not too reduce costs at the expense
of quality and strength. Although using less durable poles can reduce the initial capital
cost, it will increase the life-cycle costs (LCC) of a line.
a) Wood
Wooden poles are widely used for electrification in Southern Africa and have a number
of advantages, namely:
• They can be a produced and treated locally;
• They are lighter than the equivalent concrete pole (the common alternative) and
easier to handle in the field;
• They are easy to climb;
• They are not susceptible to breakage during transport and handling;
• Their manufacture is not energy intensive (unlike that of cement and steel poles);
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AETS Consortium – 22 June 2018 14
• They permit greater flexibility in the placement of mounting bolts and facilitate
later modification in the field;
• They do not require special foundations and can be buried directly in the ground;
• Properly treated wood poles can last for decades, if inspected and maintained as
part of a condition monitoring program.
b) Concrete
Where wooden poles are not an option, for whatever reason, steel-reinforced concrete is
a common alternative. The manufacture of concrete poles is relatively inexpensive,
because it can be done locally using readily available materials (cement and reinforcing
steel). The most common designs include cast reinforced, cast pre-stressed, and spun
concrete.
The disadvantages of concrete poles include (i) higher transport costs and difficulty of
handling due to their weight, (ii) possibility of breakage during transport and handling,
and (iii) susceptibility to failure due to corrosion of the reinforcing steel.
c) Steel
Where terrain access is a problem, steel poles offer a cost-effective alternative as they can
be fabricated of smaller sections that can be easily transported and assembled on-site.
Since the strength of the material is predictable, steel poles can be designed and
manufactured to more exacting tolerances. However, steel is susceptible to corrosion
(rusting) and requires appropriate precautions to be taken, including galvanizing or
painting.
Shorter poles
The use of shorter poles can mean a significant reduction
in cost for a rural electrification programme. For
example, reducing the length of a wooden pole by 30%
percent from (12m to 9m) decreases the cost almost 40%.
Table 2: Cost of Wood Poles
Length [m]
Diameter
[mm] Cost [M]
12 160 – 180 1,257
11 160 – 180 1,135
9 160 – 180 781
The extent to which shorter poles can be utilised is
determined by the minimum acceptable clearance
between the lowest conductor and the ground. The
minimum clearance to ground on 11kV and open wire
systems is based on the NRS041 requirement of 5.5m
when located above roads and 5.1m when not involving
road, rail, telephone or power line crossings.
The available clearances for standard pole lengths,
assuming a vertical configuration with 600mm phase
spacing and no sag, are summarised in Table 3. The
figures indicate that both 9m and 11m poles will provide
adequate clearance at 11kV.
Figure 3: Attachment Heights
for a 11kV Vertical
Configuration
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AETS Consortium – 22 June 2018 15
Table 3: 2-Phase and 3-Phase Clearances
Pole length
(mm)
Approx.
Burial
depth,
c (mm)
Phase
separation,
a (mm)
Clearance
requirement
at 11kV,
b (mm)
2-Phase
clearance
(mm) with no
sag
3-Phase
clearance
(mm) with no
sag
9 000 1 500 600 5 100 6 700 6 100
11 000 1 800 600 5 100 8 400 7 800
12 000 2 200 600 5 100 10 000 9 400
Longer spans
While the use of shorter poles reduces costs, network design optimisation must also
consider the span lengths as these determine the number of poles required. Longer spans
generally require longer poles and finding the most cost-effective combination of pole
size and span length for a specific conductor type and configuration is the crux of the
optimisation exercise.
Depending on the application significant costs savings are possible by selecting the
optimal pole length. This is only realistically achievable during the design phase once a
survey has been conducted.
4.1.2 MV Conductor
After poles, conductor is the most costly component of an overhead line. The factors that
impact on conductor cost are material, cross-sectional area and length.
Conductor material
LEC exclusively uses ACSR on its network. The cost difference between all aluminium
alloy (AAAC) and aluminium cable steel reinforced (ACSR) conductors is approximately
30% but if one factors in the lower tensile strength of AAAC and hence shorter spans this
saving is reduced to 7%. Bigger savings can be achieved by reducing the number of
conductors or using smaller conductor sizes.
Cross-sectional area
While the choice of conductor size has a direct impact on its cost, it also indirectly affects
network costs through structural requirements on poles and pole top hardware.
Optimisation in this regard seeks to find the most cost-effective solution for minimising
technical losses and meeting the requirements of the network over its operating life.
Figure 4 depicts the cost of losses for four typical ACSR conductors. The costs are
calculated on the premise that the system current will grow steadily to reach the peak
current value at the end of 25 years. From purely a system losses perspective the optimum
ACSR conductor is Dog, followed by Rabbit, Gopher and Magpie.
Factoring in the capital cost of the conductor yields the LCC results shown in Error!
Reference source not found.5, which indicates that even though smaller conductors have
higher losses, they still are the most cost-effective option for rural electrification over the
long term because of the low load factor of domestic customers combined with the capital
savings of using a smaller conductor size.
As is the case with pole types and lengths, the decision on conductor size to be used is
only possible during the detail design phase.
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium – 22 June 2018 16
Figure 4: Cost of Losses for a Range of Typical ACSR Conductor
Figure 5: LCC for a Range of Typical ACSR Conductor
Conductor length
In attempting to contain conductor cost, using less conductor would have the biggest
impact. The length of conductor required is a direct consequence of the chosen
distribution technology: 3-phase, 2-phase and Single Wire Earth Return (SWER).
3-phase distribution is a proven technology and widely used in the current electrification
programme, it does not need an explanation.
A 2-phase (sometimes referred to as single-phase) system is where the network is
extended using two phases of a 3-phase system. In this case the subsequent LV
distribution can only be done using a single-phase supply. A typical configuration of a
2-phase system is shown in Error! Reference source not found.6.
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AETS Consortium – 22 June 2018 17
Figure 6: Typical Configuration of a 2-Phase System
SWER systems are used to transport electricity over long distances to serve small loads
(eg a remote farm or small community), utilising a single conductor and the earth serving
as return path for the current. A SWER system can be supplied directly from one phase
of the 33kV system, or from an 11kV system through an isolating transformer. The latter
option is generally preferred to prevent returning currents flowing to the source
substation. A typical configuration of a SWER system is shown in Error! Reference
source not found..
Figure 7: Typical Configuration of a SWER System
A comparison of the power transfer capability between 3-phase, 2-phase and SWER
systems is shown in Figure 8. As one would expect, the 3-phase system is the most
optimal for transferring power. But as distance increases and power requirements
decrease (as is the case with most electrification areas), the performance of 3-phase, 2-
phase and to a lesser extent SWER systems converge. The idea with optimisation is not
to choose one system over the other, but rather to select the best solution for a particular
situation. For areas with high power requirements close to the source, the optimal
solution generally is a 3-phase network, but as the power requirements decrease and the
distance from the source increases, 2-phase and SWER networks may offer a more cost-
effective solution.
R W B
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Figure 8: Power Transfer Capability of 3-Phase, 2-Phase and SWER
It is generally accepted that the 3-Phase system has the best power transfer capability, but
that 2-phase and SWER systems are significantly less expensive. Therefore, the most
suitable network configuration depends on the present and future load to be served which
in turn determines the extent to which the power transfer capacity of the feeder is utilised.
4.2 LOW VOLTAGE (LV) DISTRIBUTION SYSTEM
The issues affecting the LV system (380/200V) are similar to those of the HV system,
and where these have already been addressed under HV they will not be repeated here;
instead, the relevant HV section will be referenced.
As is the case for the HV system, the first step in identifying cost saving opportunities is
to ensure that the existing network designs are optimised, prior to considering alternative
distribution technologies:
• Conductors should be optimized to handle realistic demands expected over the
life of the system with acceptable losses;
• Pole lengths should not exceed those necessary to meet ground clearance
requirements;
• Network designs should be standardized to minimize the use of specialized
engineering expertise.
4.2.1 LV Poles
On the LV side, there are mainly two options for optimising pole costs, namely alternative
pole materials and shorter poles. Unlike with HV poles, the span length for the LV
network is often limited by the distance between customers.
Alternative pole materials
As for HV poles, the choice of material for LV poles includes wood, concrete and steel.
The respective advantages and disadvantages of each material are similar for both HV
and LV poles.
Shorter poles
According to NRS041 the minimum clearance to ground on 400V open wire systems is
5.5m when located above roads and 4.9m when not involving road, rail, telephone or
power line crossings. The applicable ground clearances for the various pole lengths are
summarised in Table 4, indicating that a 7m poles will provide adequate clearance.
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Table 4: Clearances for ABC Conductors
Pole length
(mm)
Burial depth
(mm)
Existing
Clearance
requirement at
380V (mm)
Clearance
with no sag
(mm)
7,000 1,300 5,500 5,500
8,000 1,400 5,500 6,400
9,000 1,500 5,500 7,300
11,000 1,800 5,500 9,000
4.2.2 LV Conductor
The factors influencing LV conductor cost are similar to those on the HV side, for bare
conductor, as well as choice of bare vs insulated conductor (aerial bundle conductor –
ABC).
Bare conductor vs ABC
The advantages of ABC over bare wire are:
• Risk of contact between phases and ground objects is reduced (unless insulation
is damaged) - this allows the use of shorter poles and lines being installed closer
to existing structures;
• Less pole top hardware is required, which reduces material and labour costs;
• ABC is simpler to install as there is only one cable;
• Tree clearing is not required;
• If a line is damaged and falls to the ground, there is reduced risk of electrocution;
• Reduced risk of a neutral-only break from tree or vehicle damage;
• Electricity theft is more difficult.
The disadvantages of ABC over bare wire are:
• Cable is more costly;
• Relative lifespan is shorter due to insulation degradation;
• Shorter spans due to increased conductor weight.
Cross sectional area
The size of the conductor directly impacts material usage which affects costs. It is
therefore important that the size of the conductor is selected to match expected demand
over the life of the asset as well as providing adequate voltage and fault levels.
The current conductor sizes employed by LEC are 35mm2 and 70mm2. It is proposed that
these conductor sizes are maintained but additional options for 3-core are added.
Conductor length
Choice of distribution network configuration influences conductor length in a significant
way. There are three configuration options for LV distribution, namely 3-phase, dual-
phase (also referred to as split-phase of bi-phase), and 1-phase.
3-phase and 1-phase distribution are currently used in Lesotho and need no further
explanation. A dual-phase LV system transforms from a 1-phase HV supply to the
secondary winding which is centre-tapped (i.e. using two single-phase windings of
opposite polarity with a common neutral), as illustrated by the circuit diagram in Error!
Reference source not found..
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Figure 9: Circuit Diagram for Split-Phase System
The advantage of a dual-phase system over a 1-phase system is the sizing of the neutral
conductor. While a single-phase system requires the phase and neutral conductor to be
equally sized, a dual-phase system allows for a smaller neutral conductor to be used, as
the current flowing from the two secondary windings partially (or fully, in a completely
balanced system) cancel each other.
The relative power transfer capability of 3-phase, dual-phase and 1-phase systems is
illustrated below. The cost of the three configuration options is influenced by the number
of conductors and therefore 3-phase will be the most expensive option, followed by dual-
phase and 1-phase. Dual-phase offers designers an intermediate step between 1-phase
and 3-phase, and this is assumed to be the standard configuration for the EMP.
Table 5: Comparison between 3-Phase, Dual-Phase and 1-Phase
Parameter 1-Phase Dual-Phase 3-Phase
Voltage 230V Ph-N 230V
Ph-Ph 460V
Ph-N 230V
Ph-Ph 400V
Power transfer1 1 4 6
No of conductors 2 3 4
It should be noted that 3-phase LV feeders cannot be used with 1-phase HV lines. In
general, phase-neutral LV feeders are very restrictive and lead to greater expense in HV
infrastructure when the load grows above a critical level. Dual-phase feeders can handle
almost as much power as 3-phase feeders but can be used on a 1-phase supply point. In
practice, 1-phase feeders are often the most economic option, regardless of the low
conductor efficiency, because they provide all that is needed. Dual-phase technology then
gives the designer an upgrade route where the load exceeds the capacity of 1-phase
feeders.
4.2.3 Service Connection
LEC currently prefers 8mm2 conductor for service connections. No changes are
recommended to this practice.
There are generally two options for charging rural customers for their electricity
consumption, namely metering of actual consumption (using a prepayment meter) and
charging a flat rate that is independent of actual consumption but limited in magnitude
1 For similar volt drop
V1
V2
N
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(using a current limiting device). General experience with the flat rate method has been
negative, in the region, therefore it is not recommended that this is adopted.
4.3 DISTRIBUTION TRANSFORMER
Typically, the cost of distribution transformers is a small part of the construction cost of
most networks serving rural areas. However, the cost for constructing a line is generally
borne by hundreds or even thousands of consumers served by that line, while the capital
cost of each transformer is usually borne by the much smaller number of consumers it
serves.
Depending on design, a transformer’s cost can be significant. Moreover, given that
transformers consume power 24 hours per day independent of imposed load, operating
costs can be even more significant, and it is therefore important that transformers are sized
such that they are loaded up to 80% in the medium term (10 years). Considering the low
demand and load density in rural areas it is advisable to use smaller rather than large
transformers.
Typical distribution transformer sizes for rural electrification are as follows:
Table 6: Distribution Transformer Sizes
1-Phase Dual-Phase 3-Phase
10 kVA 32 kVA 25 kVA
15 kVA 64 kVA 100 kVA
25 kVA 200 kVA
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5 PLANNING AND DESIGN CRITERIA
The purpose of planning criteria is to define the conditions under which the grid will be
expanded. Planning criteria are usually a mix of technical and statutory limits beyond
which operation of the grid becomes problematic. In the case of design criteria these refer
to the technologies that will be assumed to be used when extending the medium voltage
grid.
5.1 PLANNING CRITERIA
5.1.1 Voltage limits
For network planning purposes, the network shall be designed to achieve a steady-state
voltage between 95% and 105%. After a designated contingency, voltage shall be
maintained between 90% and 110% of nominal voltage.
5.1.2 Current or thermal limits
Thermal ratings of overhead lines will be used as initial check of line overloading. A
rating based on 75°C for normal conditions or 90°C for contingency conditions will be
used.
5.1.3 Security of supply
A basic requirement of a network reliable operation is that all equipment will operate
within its normal thermal rating and normal voltage limits when the network is ‘intact’
(with all elements in service), and within its emergency thermal rating and emergency
voltage limits immediately after a disturbance involving the loss of an element (single
contingency condition) without any loss of load (load shedding).
5.2 DESIGN CRITERIA
5.2.1 Voltage
The preferred voltage for grid extensions will be 11kV except for cases where the closest
available network is 33kV. It is assumed that new customers will not be supplied directly
at a higher voltage level.
5.2.2 Redundancy
Grid extensions in rural areas will be radial, i.e. loss of the line will result in supply
interruptions to customers.
5.2.3 Grid technology
Due to the proximity (between 5 and 7.5km) of future grid connections to the existing
network, the extensions will be based on 3-phase networks.
5.3 UNIT COSTS
The following unit costs are utilised for costing purposes and are based on information
provided by LEC for the grid electrification standards currently applied in Lesotho,
assuming the following configurations:
• Mink ACSR conductor for MV lines;
• 35 mm2 aerial bundle conductor (ABC) for LV lines;
• 8 mm2 service cable for household connections;
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• Split meters, with the user interface in the building and the breaker on the LV
pole; ready boards are not included.
Table 7: Unit Construction Costs
ITEM CONSTRUCTION
COST (M)
33kV 3-phase line per km 386,760
11kV 3-phase line per km 190,000
LV line per km 100,564
33/11kV transformer per kVA 255
33/0.4kV transformer per kVA 720
11/0.4kV transformer per kVA 333
LV service connection (including
taxes / duties) 4,000
Considering the following typical grid electrification project, the average cost per grid
electrification connection is around M 15,000 and made up of the following components:
Table 8: Analysis of Typical Grid Electrification Project
COMPONENT COST [M]
2 km of 11kV 3-phase line 380,000
200kVA distribution transformer (11/0.4kV) 66,660
12 km of LV lines 1,206,768
150 LV service connections 600,000
TOTAL COST 2,253,428
Cost per connection M 15,023
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6 GRID ELECTRIFICATION TIME-PLAN AND COST
6.1 OFF-GRID BUDGET ALLOCATION
The assumed government annual budget allocation for grid electrification is M 120
million (as per MEM directive), out of a total available annual electrification budget of
M 150 million (see Error! Reference source not found.).
Figure 10: Annual Budget Allocation for Grid and Off-Grid
6.2 GRID ELECTRIFICATION EAs
Taking this budget into consideration, a total of 1,602 EAs are identified which can be
electrified over the next 20 years under the Stage 1 distance prioritisation presented in the
separate Action & Investment Plan report (Annex I), i.e. with distance to the closest grid
less than 5 km in the Senqu Valley and Highlands or less than 7.5 km in the Lowlands
and Foothills. When the customer density (more than 70 per EA) requirement is also
applied, the number of EAs to be grid-electrified is reduced to 1,399. These EAs all have
road access and are suitable for grid electrification.
The selected 1,399 EAs are then ranked in accordance with the Stage 2 prioritisation
method, which yields the following grid-electrification results over 20 years: 155,127
connections with a total load of 73,468 kVA and an annual energy consumption of
455,672 MWh and technical losses of 28,252 MWh per annum. When all these
connections are made, at an overall M 2.33 billion capital cost over the 20-year period,
the total operating cost will reach around M 76.5 million per annum.
Table 9: Grid Electrification Overview over 20 Years
EA Infrastructure to be
Electrified
Number of
Connections Load (kVA)
Energy
Consumed
[MWh/annum]
Households 150,062 68,924 414,319
Hotels and Guest Houses 26 58 363,066
Other Businesses 3,675 3,418 21,706
Primary Schools 453 424 5,910
Secondary Schools 15
M 30,000,000
M 120,000,000
Off-grid Investment
Grid Investment
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EA Infrastructure to be
Electrified
Number of
Connections Load (kVA)
Energy
Consumed
[MWh/annum]
Clinics 1
126 1,203 Health Centres 54
Hospitals 1
Hostels 22
Agricultural Resource Centres 17 15 113
Community Council Offices 12 12 89
Principal Chief’s Offices 6 7 53
Local Courts 10 7 71
Police Stations 11 33 337
Post Offices 11 7 74
Other Government Facilities 11 5 41
Churches 740 432 2,745
TOTAL 155,127 73,468 455,672
6.3 TIME-PLAN
With an annual investment of M 120 million an average of 7,756 grid connections can be
provided each year, i.e. 155,127 connections – 97% of which are household connections
– for a total budget over 20 years of around M 2.33 billion.
The detailed yearly rollout schedule based on a M 120 million budget allocation can be
found in the Annex to this report (Section 9). The tables show the ranking order and year
of implementation for each EA as well as the investment costs for each. These are
summarised in Table 10 below, together with the annual number of connections, load and
associated energy consumption over the 20-year period and illustrated graphically in
Figures 11 – 15.
Table 10: Annual Grid Electrification Roll-Out Summary
Implemen-
tation
Year
Number of
EAs
Electrified
Investment
[Maloti]
Number of
Connections
Provided
Load
(kVA)
Energy
(MWh/annum)
Year 1 70 118,980,000 7,932 4,122 23,574
Year 2 72 120,810,000 8,054 3,935 25,186
Year 3 76 119,805,000 7,987 3,581 23,152
Year 4 77 119,625,000 7,975 3,689 23,536
Year 5 74 120,030,000 8,002 3,741 23,863
Year 6 64 119,565,000 7,971 3,491 22,495
Year 7 65 121,080,000 8,072 3,497 22,868
Year 8 66 118,800,000 7,920 3,654 22,855
Year 9 68 120,360,000 8,024 3,728 22,798
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Implemen-
tation
Year
Number of
EAs
Electrified
Investment
[Maloti]
Number of
Connections
Provided
Load
(kVA)
Energy
(MWh/annum)
Year 10 79 119,355,000 7,957 4,065 24,017
Year 11 81 121,440,000 8,096 3,788 23,777
Year 12 74 120,045,000 8,003 3,679 23,377
Year 13 72 119,275,000 7,953 3,669 23,593
Year 14 74 120,060,000 8,004 3,963 24,587
Year 15 75 120,675,000 8,045 4,138 24,703
Year 16 71 119,610,000 7,974 3,709 24,440
Year 17 72 119,190,000 7,946 3,680 21,811
Year 18 71 120,795,000 8,053 3,696 22,958
Year 19 72 120,210,000 8,014 4,074 24,225
Year 20 26 47,175,000 3,145 1,569 8,858
TOTAL 1,399 2,326,905,000 155,127 73,468 455,672
Figure 11: Existing Grid-Electrified EAs (in green)
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Figure 12: Additional Grid-Electrified EAs in 5 Years (green)
Figure 13: Additional Grid-Electrified EAs in 10 Years (brown)
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Figure 14: Additional Grid-Electrified EAs in 15 Years (purple)
Figure 15: Additional Grid-Electrified EAs in 20 Years (pink)
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AETS Consortium – 22 June 2018 29
7 FUTURE GRID PERFORMANCE SIMULATIONS
Network studies were performed using DigSilent ver.15. The network case file was
obtained from the LEC Planning Department and was populated with the existing data
and forecasted loads for years 5, 10, 15 and 20. The following steps were followed in
compiling the network development plan:
• The LEC expansion plan projects were implemented in their respective years.
• Network analysis for each year was performed under normal conditions.
• Where there were thermal or voltage constraints, the option of transferring load to
planned substations was investigated. For cases where this was not an option the
line, transformer and shunt capacity upgrades were carried out to ensure that the
network is capable of supplying the anticipated load.
• Various planning options were evaluated to:
o Ensure the least-cost upgrade to the network;
o Minimise new servitudes required;
o Maintain overall network integrity under normal operation;
o Minimise network losses.
The geographical layout of the substations was always considered to ensure the minimum
distances for new lines, which means lower line costs and less servitudes for new lines.
7.1 LOAD FORECAST
The substation forecast that was used in the load flow analysis is shown in Error!
Reference source not found. 11. The forecast parameters are contained in the separate
Demand Forecast Report. In addition, the following load transfers were affected:
• 50% of the load on Roma substation was transferred to Ramabanta (Makhalaneng)
substation in Year 5.
• 180kW of the existing mini hydro load at Semokong was added to the new
Semokong substation in Year 5. Also, an additional 1MW of suppressed demand
was added to the substation demand.
• 50% of the load in the Mpaki area (Quthing substation) was transferred to Ha Mosi
substation in Year 5.
• 100% of the Qacha’s Nek load was transferred to Ha Mpiti in Year 5.
Table 11: Substation Forecast
Substation Demand [kVA]
Year 0 Year 5 Year 10 Year 15 Year 20
Botsabelo 33/11kV 11,944 13,180 14,616 16,278 18,207
Buthe Buthe 33/11kV 4,072 6,643 9,079 10,567 11,349
Ha Belo 132/33kV 0 500 2,500 5,000 5,000
Highway 33/11kV 9,983 11,693 13,681 16,162 19,255
Hlotse Adit 66/11kV 6,448 7,913 9,323 11,141 13,364
Hololo 3311kV 506 854 1,139 1,305 1,709
Katse Dam 66/11kV 942 1,347 1,925 2,441 2,836
Kolo 33/11kV 0 2,000 2,000 2,000 2,000
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Substation Demand [kVA]
Year 0 Year 5 Year 10 Year 15 Year 20
LEC Border 33/11kV 7,955 9,228 10,812 12,789 15,253
LEC Headquarters 33/11kV 9,654 10,572 11,714 13,138 14,914
Ha Lejone 132/66/11kV 1,993 2,210 4,546 5,483 6,456
Kolo Mine 33/11kV 0 2,000 2,000 2,000 2,000
Leloaleng (Quthing) 33/11kV 2,017 1,642 2,058 2,567 2,975
Lemphane Mine 88/11kV 0 0 4,000 6,000 6,000
Letseng Mine 88/33kV 11,578 11,694 11,829 11,983 12,163
Liqhobang 132/11kV 12,976 12,976 12,976 12,976 12,976
Mabote 33/11kV 7,741 9,105 10,362 11,640 12,975
Mafeteng 33/11kV 5,277 7,159 8,913 11,286 14,386
Mahlasela 88/11kV 974 998 1,023 1,048 1,074
Maputsoe 33/11kV 5,610 6,507 7,625 9,019 10,756
Maseru Central 33/11kV 11,943 12,693 13,625 14,789 16,239
Matsoku 66/11kV 50 50 50 50 50
Mazenod 33/11kV 3,740 4,741 5,708 6,608 7,613
Metolong 33/11kV 4,138 4,772 5,771 6,594 9,106
Mohale's Hoek 11kV 4,750 6,206 7,696 9,321 11,518
Morija 33/11kV 1,685 3,074 4,223 5,537 7,793
Mothae Mine 88/11kV 0 10,000 10,000 10,000 10,000
Muela 33/11kV 127 127 403 851 1,203
Ngoajane 33/11kV 200 419 788 1,210 1,560
Pioneer 33/11kV 17,050 17,720 18,463 19,390 20,546
Pitseng 66/11kV 2,120 4,112 6,449 8,954 11,428
Pohali Dam 88kV 0 20,000 0 0 0
Ramathole 1,189 1,805 2,386 3,092 3,685
Roma 33/11kV 6,417 3,869 4,644 5,622 6,920
St Agnes 33/11kV 4,181 4,867 5,638 6,569 7,639
Thaba Tseka 33/11kV 1,552 1,936 2,330 2,810 3,369
Thetsane 33/11kV 21,447 24,880 29,152 34,482 41,125
Tikoe 33/11kV 7,865 91,58 11,212 13,280 16,027
Tlokoeng 33kV 1,520 2,614 3,551 4,530 5,554
Ts'ehlanyane/Hlotse Adit 66/11kV 289 328 372 421 478
Tsosane 33/11kV 6,894 7,720 8,798 9,701 10,796
Ramabanta (Makhalaneng)
132/11kV 0 3,869 4,644 5,622 6,920
Semokong 132/11kV 0 1,200 1,391 1,613 1,870
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Substation Demand [kVA]
Year 0 Year 5 Year 10 Year 15 Year 20
Qacha's Nek 0 1,600 1,700 1,900 2,100
Ha Mosi 132/11kV 0 1,642 2,058 2,567 2,975
Hlotse 33/11kV 6,448 7,480 8,764 9,894 11,597
7.2 LOAD FLOW RESULTS
7.2.1 Present Situation
No voltage or thermal violations were observed. The load flow results under normal
conditions are shown in Error! Reference source not found..
7.2.2 Year 5
The following LEC expansion projects are implemented:
• Mazendod – Qacha’s Nek
o 230km x 132kV double circuit line between Mazendod and Qacha’s Nek
o New 132/33/11kV Ramabanta (Makhalaneng) substation
o New 132/33/11kV Semonkong substation
o New 132/33/11kV Ha Mosi substation
o New 132/33kV Ha Mpiti substation
• Mazendod – Thetsane
o 25km x 132kV single circuit line between Mazendod and Thetsane
o New 132/33kV Thetsane substation
• Khukhune-Ha Belo
o 30km x 132kV single circuit line between Khukhune and Ha Belo
• 55km x 132kV single circuit line between Mazendod and Mafeteng
• Add 2x30MVA transformers at Ramarothole substation
• Letseng – Mothae
o 25km x 88kV single circuit line between Letseng and Mothae
o New Mothae 88/11kV substation
• Maputsoe – Mapoteng
o 30km x 33kV single circuit line between Maputsoe and Mapoteng
o New Mapoteng 33/11kV substation
• Morija – Kolo
o 25km x 33kV single circuit line between Morija and Kolo
o New Kolo 33/11kV substation
• Letseng – Mothae
o 25km x 88kV single circuit line between Letseng and Mothae
o New Mothae mine 88kV substation
• Mothae - Lemphane
o 11km x 88kV single circuit line between Mothae and Lemphane
o New Lemphane mine 88kV substation
The additions to the network, as listed above, are shown geographically in Error!
Reference source not found..
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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Figure 16: Present Load Flow Results
Out of Calculation
De-energized
Voltages / Loading
Lower Voltage Range
0.95 p.u.
Upper Voltage Range
1.05 p.u.
Loading Range
80. %
...
100. %
Kolo
Makhoaleng
MAseruSou
Mapoteng
MosiMakhalaneng
Letloepe
Liqhobon..
Likotsi 132kV
Matelile
Thabana ..
Mafeteng
Morija
Mohale's.. Quthing
Mphaki
Sekake Mpiti
Semonkon..
Maphohlo..
Eskom Infeed
Botshabelo
LEC Border
LEC HQ
Mohale Dam
Pioneer
Mabote
Litsoeneng
ST Agnes
Mazenod Dx
Roma
Muela Hydro
Ramarothole
TsosaneHighway
Thetsane
Tikoe
Mazenod Tx
Ha LejonePitsengMaputsoe
PowerFactory 15.1.2
Project:
Graphic: LEC Network
Date: 5/24/2018
Annex:
Load Flow Balanced
Nodes Branches
Active Power [MW]
Reactive Power [Mvar]
Loading [%]
27
.12
2.7
51
7.3
3
-27.06-3.2817.33
11
.97
2.3
14
4.7
5
-11.79-1.9244.75
0.0
00
.00
0.0
0
0.000.000.00
-0.430.6310.73
0.44-0.6110.73
9.331.928.76
-9.3
1-3
.13
8.7
6
27
.12
2.7
51
7.3
5
-27
.03
-3.4
81
7.3
5
0.00-0.080.36
-0.00-0.000.36
0.00-0.090.43
-0.00-0.000.43
-0.68-0.073.27
0.69-0.023.27
-0.10-0.060.57
0.100.000.57
0.700.143.45
-0.70-0.203.45
-0.99-0.394.93
1.000.364.93
-0.99-0.394.93
1.000.364.93
0.400.172.05
-0.40-0.202.05
0.920.104.37
-0.92-0.124.37
0.980.234.67
-0.98-0.264.67
-0.210.101.39
0.21-0.201.39
-0.210.011.11
0.21-0.101.11
0.750.233.80
-0.75-0.343.80
-0.4
20
.40
4.8
6
0.4
3-0
.53
4.8
6
-4.90-4.5027.81
4.9
14
.51
27
.81
6.710.2328.01
-6.68-0.1728.01
-4.310.9018.37
4.3
1-0
.90
18
.37
42.6525.3739.18
-42.57-25.3439.18
42.6525.3739.18
-42.57-25.3439.18
27.063.2817.36
-27
.03
-3.4
81
7.3
6
4.061.4917.60
-4.00-1.4417.60
18.88-10.6813.82
-18.727.9413.82
18.88-10.6813.82
-18.727.9413.82
0.00-3.252.07
-0.00-0.002.07
-2.450.6110.38
2.4
5-0
.62
10
.38
13.192.59
55.23
-13.00-2.1655.23
-1.6
9-3
.25
15
.42
1.703.2515.42
11.993.8250.90
-11.75-3.2850.90
20.477.2543.89
-20.26-6.7943.89
5.662.9125.95
-5.63-2.8625.95
12.295.3627.11
-12.23-5.2627.11
-8.21-0.7633.86
8.3
00
.93
33
.86
5.56-1.155.00
-5.54-1.255.00
4.742.5625.54
-4.65-2.4625.54
34.50-10.6022.99
-34.018.9322.99
34.50-10.6022.99
-34.018.9322.99
10
.72
-2.3
36
.98 -10.68
-0.506.98
-1.69-3.2515.42
1.703.2515.42
12.092.5750.07
-11
.97
-2.3
15
0.0
7
8.570.6536.01
-8.53-0.5636.01
8.570.6536.01
-8.53-0.5636.01
13.163.0054.75
-12.86-2.3154.75
18.164.6026.57
-18.16-4.5926.57
12
.20
-0.1
71
0.9
6
-12
.12
-2.2
61
0.9
6
18
.47
0.7
91
6.3
2
-18
.36
-2.2
01
6.3
2
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium – 22 June 2018 33
Figure 17: Network Extension by Year 5 (According to LEC Expansion Plan)
Load flow simulations were carried out with the network additions in Error! Reference
source not found.. The thermal violations in Table 12 were observed.
Table 12: Year 5 Thermal Violations
Transformer Rated Capacity Load Level
Morija 33/11kV 2MVA 152%
The following upgrade/s were implemented to solve the violations:
• The existing 2MVA transformer at Morija substation was replaced with a 10MVA
unit to cater for the demand in 20 years of 8MVA.
The load flow results under normal conditions following the above addition are shown in
Error! Reference source not found..
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 34
Figure 18: Year 5 Load Flow Results
Out of Calculation
De-energized
Voltages / Loading
Lower Voltage Range
0.95 p.u.
Upper Voltage Range
1.05 p.u.
Loading Range
80. %
...
100. %
Kolo
Makhoaleng
MAseruSou
Mapoteng
MosiMakhalaneng
Letloepe
Liqhobon..
Likotsi 132kV
Matelile
Thabana ..
Mafeteng
Morija
Mohale's.. Quthing
Mphaki
Sekake Mpiti
Semonkon..
Maphohlo..
Eskom Infeed
Botshabelo
LEC Border
LEC HQ
Mohale Dam
Pioneer
Mabote
Litsoeneng
ST Agnes
Mazenod Dx
Roma
Muela Hydro
Ramarothole
TsosaneHighway
Thetsane
Tikoe
Mazenod Tx
Ha LejonePitsengMaputsoe
PowerFactory 15.1.2
Project:
Graphic: LEC Network
Date: 5/24/2018
Annex:
Load Flow Balanced
Nodes Branches
Active Power [MW]
Reactive Power [Mvar]
Loading [%]
1.920.609.74
-1.90-0.629.74
42
.80
10
.41
28
.08
-42.64-10.5928.08
6.8
21
.93
25
.96
-6.76-1.8025.96
-0.0
0-0
.00
0.4
6
0.00-0.110.46
2.13-1.892.60
-2.1
3-0
.89
2.6
0
3.7
0-3
.18
4.4
5
-3.691.384.45
6.399.1412.15
-6.3
0-1
1.7
21
2.1
5
10
.17
7.7
11
2.9
4
-10.07-10.3512.94
-30.64-12.4329.55
30.9211.7829.55
8.1
10
.18
7.6
1
-8.08-2.917.61
0.00-0.000.05
-0.00-0.000.05
12.373.0311.70
-12
.33
-4.1
81
1.7
0
42
.80
10
.41
28
.12
-42
.58
-10
.64
28
.12
0.00-0.080.36
-0.00-0.000.36
0.00-0.090.43
-0.00-0.000.43
0.800.966.32
-0.78-1.046.32
-0.80-0.264.02
0.800.214.02
1.640.518.25
-1.63-0.558.25
-0.45-0.452.97
0.450.422.97
-0.45-0.452.97
0.450.422.97
1.310.596.86
-1.31-0.616.86
0.53-0.353.08
-0.530.333.08
1.650.378.00
-1.64-0.398.00
-0.73-0.544.34
0.740.454.34
-0.73-0.624.60
0.730.544.60
0.06-0.472.22
-0.050.352.22
-0.6
0-0
.59
5.9
7
0.6
10
.47
5.9
7
-5.35-4.6929.78
5.3
54
.70
29
.78
-1.010.735.25
1.01-0.755.25
-4.740.7120.03
4.7
4-0
.70
20
.03
59.6231.6753.26
-59.49-31.3753.26
59.6231.6753.26
-59.49-31.3753.26
42.6410.5928.12
-42
.58
-10
.65
28
.12
4.741.8120.72
-4.66-1.7120.72
13.61-8.0710.08
-13.525.0510.08
13.61-8.0710.08
-13.525.0510.08
0.00-3.212.06
-0.00-0.002.06
-0.580.443.04
0.5
8-0
.46
3.0
4
5.743.21
27.17
-5.70-3.1227.17
6.1
21
.34
26
.09
-6.10-1.3126.09
9.104.3040.87
-8.94-3.9740.87
16.448.1737.27
-16.29-7.8537.27
4.793.1423.48
-4.77-3.1123.48
12.215.9127.54
-12.15-5.8127.54
-8.39-1.1834.92
8.4
81
.37
34
.92
4.63-2.884.80
-4.620.494.80
2.221.8413.79
-2.19-1.8413.79
33.04-6.9621.41
-32.615.0621.41
33.04-6.9621.41
-32.615.0621.41
8.1
8-3
.72
5.7
6 -8.160.875.76
6.121.3426.09
-6.10-1.3126.09
6.862.0129.05
-6.8
2-1
.93
29
.05
2.690.3611.29
-2.69-0.3711.29
2.690.3611.29
-2.69-0.3711.29
7.462.3031.76
-7.36-2.1031.76
10.753.2815.97
-10.74-3.2715.97
16
.49
1.5
11
5.0
0
-16
.35
-3.7
71
5.0
0
24
.65
0.8
22
1.6
9
-24
.46
-2.0
42
1.6
9
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 35
7.2.3 Year 10
The following LEC expansion projects are implemented:
• Katse – Thaba Tseka
o 50km x 66kV single circuit line between Katse and Thaba Tseka
o New 66/33/11kV Thaba Tseka substation
• Thaba Tseka - Makunyapane
o 40km x 66kV single circuit line between Thaba Tseka and Makunyapane
o New 66/11kV Makunyapane substation
• Makunyapane - Sehong-hong
o 40km x 66kV single circuit line between Makunyapane and Sehong-hong
o New 66/11kV Sehong-hong substation
The additions to the network, as listed above, are shown geographically in Error!
Reference source not found..
Figure 19: Network Extension by Year 10 (According to LEC Expansion Plan)
Load flow simulations were carried out with the network additions in Error! Reference
source not found.. The thermal violations in Table 13 were observed.
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 36
Table 13: Year 10 Thermal Violations
Transformer Rated Capacity Load Level
Mazendod Dx 33/11kV 5MVA 117%
The following upgraded were implemented to solve the violations:
• The existing 5MVA transformer at Mazenod Dx 33/11kV substation was
upgraded to a 10MVA unit to cater for the demand in 20 years of 8MVA.
The load flow results under normal conditions following the above addition is shown in
Error! Reference source not found..
7.2.4 Year 15
The thermal violations in Table 14 were observed under normal conditions.
Table 14: Year 15 Thermal Violations
Transformer Rated Capacity Load Level
Pioneer 33/11kV (Tr1) 10MVA 105%
Pioneer 33/11kV (Tr2) 10MVA 102%
Butha Buthe 33/11kV (Tr1) 5MVA 111%
Butha Buthe 33/11kV (Tr2) 5MVA 111%
Mafeteng 33/11kV(Tr1) 5MVA 115%
Mafeteng 33/11kV(Tr2) 5MVA 115%
The following upgrade/s were implemented to solve the violations:
• An additional 10MVA transformer was added at Pioneer substation to cater for
the demand in 20 years of 21MVA.
• The existing 2x5MVA transformers at Butha Buthe were replaced with a
1x20MVA unit to cater for the demand in 20 years of 11MVA.
• The existing 2x5MVA transformers at Mafeteng were replaced with a 1x20MVA
unit to cater for the demand in 20 years of 14MVA.
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 37
The load flow result under normal conditions following the above addition is shown in
.
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 38
Figure 20: Year 10 Load Flow Results
Out of Calculation
De-energized
Voltages / Loading
Lower Voltage Range
0.95 p.u.
Upper Voltage Range
1.05 p.u.
Loading Range
80. %
...
100. %
Kolo
Makhoaleng
MAseruSou
Mapoteng
MosiMakhalaneng
Letloepe
Liqhobon..
Likotsi 132kV
Matelile
Thabana ..
Mafeteng
Morija
Mohale's.. Quthing
Mphaki
Sekake Mpiti
Semonkon..
Maphohlo..
Eskom Infeed
Botshabelo
LEC Border
LEC HQ
Mohale Dam
Pioneer
Mabote
Litsoeneng
ST Agnes
Mazenod Dx
Roma
Muela Hydro
Ramarothole
TsosaneHighway
Thetsane
Tikoe
Mazenod Tx
Ha LejonePitsengMaputsoe
PowerFactory 15.1.2
Project:
Graphic: LEC Network
Date: 5/24/2018
Annex:
Load Flow Balanced
Nodes Branches
Active Power [MW]
Reactive Power [Mvar]
Loading [%]
1.930.609.85
-1.90-0.629.85
52
.10
16
.89
34
.97
-51.84-16.7534.97
7.2
32
.09
27
.85
-7.17-1.9427.85
-0.0
0-0
.00
0.4
6
0.00-0.110.46
2.110.773.76
-2.1
1-3
.45
3.7
6
4.0
7-0
.34
3.9
9
-4.07-1.423.99
5.5111.2613.62
-5.3
9-1
3.7
21
3.6
2
10
.53
10
.34
14
.96
-10.38-12.8614.96
-35.07-14.1634.08
35.4413.7434.08
10
.09
0.4
89
.38
-10.03-3.139.38
0.00-0.000.05
-0.00-0.000.05
12.373.0611.84
-12
.33
-4.1
81
1.8
4
52
.10
16
.89
35
.02
-51
.75
-16
.69
35
.02
0.00-0.080.35
-0.00-0.000.35
0.00-0.090.42
-0.00-0.000.42
0.630.073.13
-0.63-0.163.13
-1.11-0.465.84
1.120.415.84
1.880.539.43
-1.86-0.579.43
-0.47-0.282.55
0.470.252.55
-0.47-0.282.55
0.470.252.55
1.560.517.76
-1.55-0.537.76
0.880.304.49
-0.87-0.324.49
2.120.7010.52
-2.10-0.7110.52
-0.240.282.18
0.24-0.372.18
-0.240.201.80
0.24-0.281.80
0.750.434.34
-0.74-0.534.34
-0.4
80
.75
7.3
0
0.4
9-0
.85
7.3
0
-5.90-4.8932.43
5.9
14
.91
32
.43
-0.690.674.12
0.69-0.694.12
-5.280.4122.37
5.2
8-0
.41
22
.37
76.6041.7768.80
-76.36-41.1068.80
76.6041.7768.80
-76.36-41.1068.80
51.8416.7535.02
-51
.75
-16
.69
35
.02
5.522.1924.33
-5.40-2.0024.33
9.24-9.498.48
-9.186.398.48
9.24-9.498.48
-9.186.398.48
0.00-3.182.05
0.00-0.002.05
-0.830.333.75
0.8
3-0
.34
3.7
5
6.933.59
32.49
-6.87-3.4632.49
5.7
41
.37
24
.84
-5.73-1.3424.84
10.624.9647.85
-10.41-4.4947.85
19.369.3543.86
-19.15-8.8943.86
7.304.1134.47
-7.26-4.0234.47
10.735.3524.47
-10.68-5.2824.47
-7.54-0.9831.58
7.6
21
.14
31
.58
7.740.867.46
-7.71-3.147.46
3.462.1519.60
-3.41-2.1219.60
31.49-5.7420.38
-31.103.7320.38
31.49-5.7420.38
-31.103.7320.38
11
.94
-0.3
47
.86 -11.89
-2.387.86
5.741.3724.84
-5.73-1.3424.84
7.282.1831.17
-7.2
3-2
.09
31
.17
2.110.098.88
-2.11-0.108.88
2.110.098.88
-2.11-0.108.88
7.872.4733.89
-7.76-2.2333.89
17.095.5325.77
-17.08-5.5325.77
18
.86
2.5
31
7.4
0
-18
.66
-4.6
11
7.4
0
28
.06
5.1
92
5.4
1
-27
.79
-6.2
32
5.4
1
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 39
Figure 21: Year 15 Load Flow Results
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 40
7.2.5 Year 20
The thermal violations in Table 15 were observed under normal conditions.
Table 15: Year 20 Thermal Violations
Transformer Rated Capacity Load Level
Thetsane 33/11kV(Tr1) 20MVA 107%
Thetsane 33/11kV(Tr2) 20MVA 107%
Hlotse 33/11kV(Tr1) 5MVA 119%
Hlotse 33/11kV(Tr2) 5MVA 119%
Tsosane 33/11kV(Tr1) 5MVA 109%
Tsosane 33/11kV(Tr1) 5MVA 109%
Line Rated Capacity Load Level
Eskom – Mabote 1 121MVA 103%
Eskom – Mabote 2 121MVA 103%
The following upgrade/s were implemented to solve the violations:
• The existing 2x5MVA transformers at Hlotse were replaced with a 1x20MVA
unit to cater for the demand in 20 years of 12MVA
• The existing 2x5MVA transformers at Tsoane were replaced with a 1x20MVA
unit to cater for the demand in 20 years of 11MVA
• No further transformers can be added at Thetsane as this will increase the fault
level on the 11kV busbar beyond 30kA. Based on the load flow studies the
substation needs to be deloaded by approximately 3MVA. It is proposed that load
is transferred from Thetsane to neighbouring substations, namely Tikoe,
Botshabelo and Pioneer.
The load flow results under normal conditions following the above addition is shown in
Error! Reference source not found..
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 41
Figure 22: Year 20 Load Flow Results
Out of Calculation
De-energized
Voltages / Loading
Lower Voltage Range
0.95 p.u.
Upper Voltage Range
1.05 p.u.
Loading Range
80. %
...
100. %
Kolo
Makhoaleng
MAseruSou
Mapoteng
MosiMakhalaneng
Letloepe
Liqhobon..
Likotsi 132kV
Matelile
Thabana ..
Mafeteng
Morija
Mohale's.. Quthing
Mphaki
Sekake Mpiti
Semonkon..
Maphohlo..
Eskom Infeed
Botshabelo
LEC Border
LEC HQ
Mohale Dam
Pioneer
Mabote
Litsoeneng
ST Agnes
Mazenod Dx
Roma
Muela Hydro
Ramarothole
TsosaneHighway
Thetsane
Tikoe
Mazenod Tx
Ha LejonePitsengMaputsoe
PowerFactory 15.1.2
Project:
Graphic: LEC Network
Date: 5/24/2018
Annex:
Load Flow Balanced
Nodes Branches
Active Power [MW]
Reactive Power [Mvar]
Loading [%]
1.930.6010.07
-1.90-0.6210.07
71
.36
20
.01
47
.40
-70.89-19.1247.40
9.3
21
.94
35
.61
-9.21-1.7035.61
0.0
00
.00
0.4
5
0.00-0.110.45
2.162.905.53
-2.1
4-5
.66
5.5
3
5.0
02
.01
5.7
1
-4.99-3.835.71
6.81-0.136.57
-6.7
8-2
.61
6.5
7
12
.75
-0.8
31
1.4
9
-12.65-1.8011.49
-47.41-21.0747.43
48.1321.4547.43
15
.16
3.1
21
4.4
7
-15.02-5.5314.47
-1.291.0123.16
1.36-0.9223.16
12.373.1112.05
-12
.33
-4.1
81
2.0
5
71
.36
20
.00
47
.44
-70
.72
-18
.79
47
.44
0.00-0.070.35
0.00-0.000.35
0.00-0.090.41
0.00-0.000.41
0.740.043.70
-0.74-0.123.70
-1.31-0.577.06
1.320.537.06
3.451.2517.81
-3.38-1.2117.81
-0.69-0.413.82
0.690.383.82
-0.69-0.413.82
0.690.383.82
2.300.7811.68
-2.28-0.7811.68
1.440.577.66
-1.44-0.587.66
3.221.1416.40
-3.19-1.1216.40
-0.70-0.183.56
0.700.093.56
-0.70-0.263.68
0.700.183.68
0.720.133.66
-0.72-0.243.66
-1.4
1-0
.18
10
.41
1.4
40
.09
10
.41
-7.12-2.8832.78
7.1
32
.89
32
.78
-1.021.397.43
1.03-1.417.43
-7.12-2.8832.78
7.1
32
.89
32
.78
115.3458.59101.97
-114.83-56.80101.97
115.3458.59101.97
-114.83-56.80101.97
70.8919.1247.45
-70
.72
-18
.79
47
.45
7.573.3033.64
-7.35-2.8633.64
4.11-10.687.38
-4.077.567.38
4.11-10.687.38
-4.077.567.38
0.00-3.142.03
0.000.002.03
-0.551.436.44
0.5
5-1
.44
6.4
4
8.785.10
42.42
-8.66-4.8642.42
6.0
10
.73
25
.74
-5.99-0.6925.74
14.297.3365.25
-13.90-6.4165.25
27.0414.7062.48
-26.62-13.7362.48
8.716.3244.33
-8.63-6.1644.33
19.1410.4744.30
-18.99-10.1444.30
-9.340.6639.16
9.4
6-0
.41
39
.16
11.222.1310.86
-11.16-4.2710.86
4.492.8625.80
-4.40-2.7625.80
33.17-3.0721.26
-32.741.2321.26
33.17-3.0721.26
-32.741.2321.26
17
.61
2.3
11
1.8
8
-17.50-4.7611.88
6.010.7325.74
-5.99-0.6925.74
9.402.1039.85
-9.3
2-1
.94
39
.85
1.94-1.179.61
-1.931.169.61
1.94-1.179.61
-1.931.169.61
10.162.3943.26
-9.98-1.9843.26
24.367.7136.98
-24.34-7.6936.98
22
.53
4.0
82
1.1
7
-22
.24
-5.8
82
1.1
7
35
.87
9.5
03
3.2
7
-35
.41
-10
.08
33
.27
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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8 ANNEX
8.1 ANNUAL GRID ELECTRIFICATION ROLL-OUT SCHEDULE
PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 06600443032 Mohale's Hoek 1,575,000 28 05480113026 Mafeteng 1,680,000 55 04420513080 Maseru 1,425,000
2 10730233004 Thaba-Tseka 1,125,000 29 01020213001 Botha-Bothe 1,230,000 56 07650641055 Quthing 1,605,000
3 02171012017 Leribe 1,365,000 30 01020213034 Botha-Bothe 1,725,000 57 03210313007 Berea 1,920,000
4 10750432074 Thaba-Tseka 1,905,000 31 04440712034 Maseru 1,275,000 58 05510413048 Mafeteng 1,455,000
5 09800433015 Mokhotlong 1,605,000 32 05520512037 Mafeteng 1,605,000 59 06560113040 Mohale's Hoek 2,025,000
6 03260713038 Berea 1,365,000 33 02090413019 Leribe 1,605,000 60 06590343020 Mohale's Hoek 1,815,000
7 05520512031 Mafeteng 1,200,000 34 08700243037 Qacha's Nek 1,620,000 61 08690142060 Qacha's Nek 1,980,000
8 01010123024 Botha-Bothe 2,475,000 35 05510412034 Mafeteng 2,865,000 62 03260713047 Berea 1,665,000
9 06600443043 Mohale's Hoek 1,500,000 36 07640641015 Quthing 1,230,000 63 10750433067 Thaba-Tseka 1,875,000
10 01040413033 Botha-Bothe 1,815,000 37 04450813057 Maseru 1,230,000 64 09790531006 Mokhotlong 1,290,000
11 07640641022 Quthing 1,575,000 38 05530613024 Mafeteng 1,740,000 65 04380113005 Maseru 2,460,000
12 03210313042 Berea 1,245,000 39 03250613017 Berea 1,560,000 66 01010123035 Botha-Bothe 2,145,000
13 06590343042 Mohale's Hoek 1,695,000 40 05510413047 Mafeteng 1,290,000 67 03230513056 Berea 1,545,000
14 06560113027 Mohale's Hoek 1,635,000 41 02171013029 Leribe 1,725,000 68 05480113008 Mafeteng 1,800,000
15 03260713036 Berea 1,200,000 42 04420513079 Maseru 1,380,000 69 05500322023 Mafeteng 2,295,000
16 02120713027 Leribe 1,980,000 43 02110613009 Leribe 1,620,000 70 03190123033 Berea 2,055,000
17 03190123022 Berea 1,290,000 44 02120713034 Leribe 1,965,000 119,805,000
18 02080313009 Leribe 1,065,000 45 03260713057 Berea 1,410,000
19 02060133022 Leribe 2,340,000 46 02060133053 Leribe 1,785,000
20 02100513021 Leribe 2,565,000 47 02060133054 Leribe 1,560,000
21 08710333024 Qacha's Nek 1,260,000 48 10740631016 Thaba-Tseka 2,610,000
22 01010123043 Botha-Bothe 1,095,000 49 01010123025 Botha-Bothe 2,070,000
23 07650641010 Quthing 1,695,000 50 06600443031 Mohale's Hoek 1,860,000
24 06590343024 Mohale's Hoek 2,115,000 51 08690142057 Qacha's Nek 1,575,000
25 02090413040 Leribe 2,160,000 52 02080313017 Leribe 1,875,000
26 04440712035 Maseru 1,545,000 53 06590313008 Mohale's Hoek 1,575,000
27 02080313021 Leribe 1,380,000 54 06560113012 Mohale's Hoek 2,190,000
YEAR 1 YEAR 1 YEAR 1
TOTAL INVESTMENT - YEAR 1
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 02120713017 Leribe 1,785,000 28 06590343016 Mohale's Hoek 1,410,000 55 05480113042 Mafeteng 1,995,000
2 09780233076 Mokhotlong 1,290,000 29 07640143038 Quthing 1,230,000 56 05490213038 Mafeteng 1,575,000
3 02060133060 Leribe 2,580,000 30 09780233067 Mokhotlong 1,920,000 57 05490213020 Mafeteng 1,080,000
4 02151311083 Leribe 1,890,000 31 05490213034 Mafeteng 1,425,000 58 07640143031 Quthing 1,755,000
5 01020213046 Botha-Bothe 1,995,000 32 07660343004 Quthing 1,560,000 59 02140813025 Leribe 2,055,000
6 02090413028 Leribe 1,905,000 33 08690143048 Qacha's Nek 2,250,000 60 05500322026 Mafeteng 1,095,000
7 09770133015 Mokhotlong 2,265,000 34 09770133037 Mokhotlong 2,190,000 61 02060133043 Leribe 1,110,000
8 02100513032 Leribe 2,340,000 35 06560113029 Mohale's Hoek 1,125,000 62 07670442054 Quthing 1,350,000
9 04390213025 Maseru 1,695,000 36 10720132049 Thaba-Tseka 1,125,000 63 09790531008 Mokhotlong 1,650,000
10 02140813042 Leribe 1,995,000 37 06590343019 Mohale's Hoek 1,125,000 64 05520523009 Mafeteng 1,650,000
11 05500322022 Mafeteng 2,595,000 38 07640143035 Quthing 1,125,000 65 06570811047 Mohale's Hoek 1,125,000
12 05540713007 Mafeteng 1,815,000 39 06570213057 Mohale's Hoek 1,755,000 66 08700243034 Qacha's Nek 1,740,000
13 05480113039 Mafeteng 1,935,000 40 01050511098 Botha-Bothe 1,200,000 67 02120713033 Leribe 1,830,000
14 06570811004 Mohale's Hoek 1,275,000 41 03190123021 Berea 1,140,000 68 02080313028 Leribe 1,920,000
15 01010113027 Botha-Bothe 1,395,000 42 01010113019 Botha-Bothe 2,175,000 69 03230513040 Berea 1,860,000
16 07660343006 Quthing 1,005,000 43 06610523042 Mohale's Hoek 1,155,000 70 04380113083 Maseru 2,730,000
17 02070223004 Leribe 2,205,000 44 02120713022 Leribe 1,890,000 71 04390223015 Maseru 1,410,000
18 09790531002 Mokhotlong 1,125,000 45 06560113024 Mohale's Hoek 1,635,000 72 08710431019 Qacha's Nek 1,170,000
19 03220413016 Berea 2,340,000 46 02120713007 Leribe 1,845,000 120,810,000
20 04460923009 Maseru 1,335,000 47 08710431020 Qacha's Nek 990,000
21 01040413038 Botha-Bothe 2,385,000 48 02120713032 Leribe 1,140,000
22 04390213038 Maseru 2,175,000 49 02131211009 Leribe 1,365,000
23 01050511026 Botha-Bothe 1,875,000 50 05530613055 Mafeteng 1,770,000
24 06560113015 Mohale's Hoek 1,470,000 51 06590343017 Mohale's Hoek 1,650,000
25 01020213002 Botha-Bothe 1,185,000 52 06560113039 Mohale's Hoek 1,650,000
26 05500313011 Mafeteng 2,865,000 53 06560113035 Mohale's Hoek 1,530,000
27 02140813040 Leribe 2,265,000 54 09770133058 Mokhotlong 1,350,000
TOTAL INVESTMENT - YEAR 2
YEAR 2 YEAR 2 YEAR 2
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 04460923038 Maseru 1,170,000 28 10720133056 Thaba-Tseka 1,245,000 55 09780233077 Mokhotlong 1,620,000
2 05480113041 Mafeteng 1,635,000 29 02181113001 Leribe 1,650,000 56 01020213011 Botha-Bothe 1,620,000
3 05480113004 Mafeteng 1,635,000 30 05530613049 Mafeteng 1,740,000 57 02181113052 Leribe 1,800,000
4 03260713041 Berea 1,335,000 31 04450813011 Maseru 1,080,000 58 08690143053 Qacha's Nek 1,290,000
5 01030323032 Botha-Bothe 2,505,000 32 06610523043 Mohale's Hoek 1,425,000 59 05520523020 Mafeteng 1,290,000
6 06610523031 Mohale's Hoek 1,425,000 33 02171013052 Leribe 1,260,000 60 05530613012 Mafeteng 1,290,000
7 07640143032 Quthing 2,055,000 34 08700243035 Qacha's Nek 1,260,000 61 02090413006 Leribe 1,710,000
8 09790531043 Mokhotlong 1,650,000 35 07660343014 Quthing 1,260,000 62 05490213044 Mafeteng 1,635,000
9 04450823068 Maseru 1,020,000 36 02171013036 Leribe 1,590,000 63 02080323038 Leribe 1,635,000
10 05480112019 Mafeteng 1,350,000 37 05480113033 Mafeteng 1,590,000 64 02100513018 Leribe 1,635,000
11 02171013022 Leribe 1,350,000 38 03260713040 Berea 1,530,000 65 03260713022 Berea 1,635,000
12 02171013045 Leribe 2,070,000 39 06590313004 Mohale's Hoek 1,770,000 66 05530613010 Mafeteng 2,085,000
13 07660343005 Quthing 2,070,000 40 03260713002 Berea 1,095,000 67 04430613047 Maseru 1,815,000
14 05510413057 Mafeteng 1,755,000 41 02151311002 Leribe 1,095,000 68 05540713010 Mafeteng 1,815,000
15 05520513004 Mafeteng 1,860,000 42 02060133030 Leribe 1,095,000 69 02140813045 Leribe 1,995,000
16 05480113037 Mafeteng 1,695,000 43 01010113021 Botha-Bothe 1,950,000 70 09800433021 Mokhotlong 2,175,000
17 04420513072 Maseru 1,470,000 44 05500313005 Mafeteng 1,275,000 71 08690143063 Qacha's Nek 1,125,000
18 05540713063 Mafeteng 1,215,000 45 07640641003 Quthing 1,275,000 72 09780233060 Mokhotlong 1,305,000
19 05510413037 Mafeteng 1,785,000 46 03210313003 Berea 1,605,000 73 08690431041 Qacha's Nek 1,485,000
20 05540713011 Mafeteng 1,875,000 47 01030313002 Botha-Bothe 1,605,000 74 04430613049 Maseru 1,650,000
21 04380113004 Maseru 1,230,000 48 05510413038 Mafeteng 1,605,000 75 05520523008 Mafeteng 1,650,000
22 02060133048 Leribe 1,230,000 49 01050511015 Botha-Bothe 1,605,000 76 03260713035 Berea 1,650,000
23 05520523012 Mafeteng 1,230,000 50 05530613004 Mafeteng 1,605,000 119,805,000
24 01010123034 Botha-Bothe 2,145,000 51 04440713001 Maseru 1,785,000
25 05510413043 Mafeteng 1,725,000 52 06590313007 Mohale's Hoek 1,455,000
26 05480113022 Mafeteng 1,815,000 53 07660343010 Quthing 1,620,000
27 05510413045 Mafeteng 1,905,000 54 02080313013 Leribe 1,620,000
YEAR 3 YEAR 3 YEAR 3
TOTAL INVESTMENT - YEAR 3
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 02131211029 Leribe 1,650,000 28 02141211011 Leribe 1,365,000 55 03220413014 Berea 1,395,000
2 02070223019 Leribe 1,500,000 29 04410423093 Maseru 1,365,000 56 04450813058 Maseru 1,575,000
3 02100523042 Leribe 1,320,000 30 03260713039 Berea 1,365,000 57 03220413003 Berea 1,575,000
4 03270813060 Berea 1,140,000 31 02090413042 Leribe 1,725,000 58 03260713010 Berea 1,305,000
5 04380113075 Maseru 1,665,000 32 02080313027 Leribe 1,725,000 59 07640641023 Quthing 1,770,000
6 02100513001 Leribe 1,665,000 33 01010123036 Botha-Bothe 1,560,000 60 04410413081 Maseru 1,770,000
7 04420513060 Maseru 1,665,000 34 09800433009 Mokhotlong 1,560,000 61 05520513044 Mafeteng 1,770,000
8 02171013038 Leribe 1,665,000 35 02090413026 Leribe 1,185,000 62 04460913007 Maseru 1,770,000
9 05480113044 Mafeteng 1,665,000 36 04410423090 Maseru 1,185,000 63 04400323055 Maseru 1,215,000
10 05500323031 Mafeteng 1,515,000 37 05520513039 Mafeteng 1,185,000 64 03260713058 Berea 1,215,000
11 02140813036 Leribe 1,335,000 38 01040413011 Botha-Bothe 2,025,000 65 04400323056 Maseru 1,215,000
12 06590343023 Mohale's Hoek 1,335,000 39 10720133031 Thaba-Tseka 1,380,000 66 04460913002 Maseru 1,215,000
13 04380113077 Maseru 2,685,000 40 07670443044 Quthing 1,380,000 67 09780233069 Mokhotlong 1,410,000
14 06560113004 Mohale's Hoek 2,505,000 41 06600443033 Mohale's Hoek 1,380,000 68 02090413010 Leribe 1,410,000
15 02070223039 Leribe 1,695,000 42 06600413003 Mohale's Hoek 1,380,000 69 04440713024 Maseru 2,070,000
16 08700243038 Qacha's Nek 1,695,000 43 07650641002 Quthing 1,380,000 70 03260713021 Berea 1,590,000
17 06580811085 Mohale's Hoek 1,350,000 44 06590343037 Mohale's Hoek 1,380,000 71 07660641013 Quthing 1,785,000
18 09790531007 Mokhotlong 1,350,000 45 04380113082 Maseru 1,380,000 72 02160913078 Leribe 1,785,000
19 02080323037 Leribe 1,350,000 46 06590313014 Mohale's Hoek 1,740,000 73 01030323025 Botha-Bothe 1,785,000
20 05500323032 Mafeteng 1,350,000 47 01010113023 Botha-Bothe 1,740,000 74 05540713061 Mafeteng 1,785,000
21 08700243030 Qacha's Nek 1,890,000 48 06600443048 Mohale's Hoek 1,740,000 75 06600443047 Mohale's Hoek 1,980,000
22 02100513005 Leribe 1,710,000 49 04440713025 Maseru 1,575,000 76 09780233058 Mokhotlong 1,125,000
23 01010113022 Botha-Bothe 1,710,000 50 04400323061 Maseru 1,200,000 77 04390213003 Maseru 2,085,000
24 02120713038 Leribe 1,710,000 51 02080323030 Leribe 1,200,000 119,625,000
25 06560113005 Mohale's Hoek 1,710,000 52 05510412033 Mafeteng 1,395,000
26 06570213059 Mohale's Hoek 1,545,000 53 02100513007 Leribe 1,395,000
27 05520512027 Mafeteng 1,365,000 54 05540713006 Mafeteng 1,395,000
TOTAL INVESTMENT - YEAR 4
YEAR 4 YEAR 4 YEAR 4
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 01030323017 Botha-Bothe 1,230,000 28 05500322025 Mafeteng 1,470,000 55 02060133027 Leribe 1,695,000
2 05540713054 Mafeteng 1,800,000 29 04430612037 Maseru 1,470,000 56 08700243041 Qacha's Nek 1,695,000
3 07670443045 Quthing 1,800,000 30 01020213013 Botha-Bothe 1,470,000 57 08700243040 Qacha's Nek 1,695,000
4 10740631008 Thaba-Tseka 1,605,000 31 07670443051 Quthing 1,470,000 58 03230513055 Berea 1,695,000
5 03250613004 Berea 1,605,000 32 06560113017 Mohale's Hoek 1,470,000 59 02080313020 Leribe 1,695,000
6 03190123041 Berea 1,605,000 33 05490213036 Mafeteng 1,650,000 60 06590343031 Mohale's Hoek 1,305,000
7 05530613025 Mafeteng 1,605,000 34 06560113037 Mohale's Hoek 2,055,000 61 07650641032 Quthing 1,305,000
8 04440713010 Maseru 2,370,000 35 04390223063 Maseru 1,275,000 62 04440713042 Maseru 1,305,000
9 01030323033 Botha-Bothe 2,685,000 36 03250613022 Berea 1,275,000 63 04440713004 Maseru 1,905,000
10 02110511024 Leribe 1,815,000 37 05530613048 Mafeteng 1,860,000 64 06610513041 Mohale's Hoek 1,905,000
11 04400323066 Maseru 1,245,000 38 02181113033 Leribe 1,860,000 65 01020223021 Botha-Bothe 1,590,000
12 06600443037 Mohale's Hoek 1,245,000 39 07650641051 Quthing 1,665,000 66 05480113010 Mafeteng 1,590,000
13 04410423095 Maseru 1,245,000 40 02060133064 Leribe 1,665,000 67 05520523015 Mafeteng 1,515,000
14 03250613019 Berea 1,245,000 41 10720133052 Thaba-Tseka 1,665,000 68 01010123044 Botha-Bothe 1,515,000
15 02181113018 Leribe 1,620,000 42 04431111025 Maseru 1,485,000 69 02070223043 Leribe 1,515,000
16 02100523015 Leribe 1,620,000 43 02140813041 Leribe 1,875,000 70 03210313055 Berea 1,200,000
17 01040413037 Botha-Bothe 2,025,000 44 09780233061 Mokhotlong 1,875,000 71 06580811014 Mohale's Hoek 1,710,000
18 09770133034 Mokhotlong 1,725,000 45 02151311056 Leribe 1,290,000 72 02100513024 Leribe 1,710,000
19 06590343047 Mohale's Hoek 1,830,000 46 04450813059 Maseru 1,290,000 73 06560113003 Mohale's Hoek 1,710,000
20 05530613057 Mafeteng 1,830,000 47 03220413007 Berea 1,290,000 74 02171013033 Leribe 2,625,000
21 07660343001 Quthing 1,455,000 48 04460923040 Maseru 1,290,000 120,030,000
22 06560113041 Mohale's Hoek 1,455,000 49 01010123041 Botha-Bothe 1,290,000
23 05490213013 Mafeteng 1,635,000 50 02070223030 Leribe 1,680,000
24 03250613026 Berea 1,260,000 51 03200213055 Berea 1,680,000
25 07650641029 Quthing 1,260,000 52 01020223017 Botha-Bothe 1,500,000
26 01040413039 Botha-Bothe 1,845,000 53 09780233075 Mokhotlong 1,500,000
27 09780233066 Mokhotlong 2,430,000 54 05500313017 Mafeteng 1,695,000
YEAR 5 YEAR 5 YEAR 5
TOTAL INVESTMENT - YEAR 5
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 47
PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 02070223037 Leribe 2,130,000 28 03190113003 Berea 1,650,000 55 03230513034 Berea 2,040,000
2 09780233065 Mokhotlong 1,605,000 29 02100513011 Leribe 1,650,000 56 04440713041 Maseru 2,460,000
3 05490213040 Mafeteng 1,605,000 30 02181113031 Leribe 1,980,000 57 02120713019 Leribe 2,460,000
4 06610523024 Mohale's Hoek 1,605,000 31 01030323030 Botha-Bothe 2,085,000 58 05490213041 Mafeteng 2,265,000
5 03241011085 Berea 1,320,000 32 03230513002 Berea 1,770,000 59 06560113008 Mohale's Hoek 1,065,000
6 05540713066 Mafeteng 1,320,000 33 02110613007 Leribe 1,770,000 60 05480113005 Mafeteng 1,710,000
7 06580811080 Mohale's Hoek 1,320,000 34 02080313004 Leribe 1,770,000 61 02060133040 Leribe 1,830,000
8 01020213009 Botha-Bothe 1,530,000 35 01020223026 Botha-Bothe 3,045,000 62 02140813049 Leribe 2,280,000
9 06600443040 Mohale's Hoek 1,530,000 36 02171013027 Leribe 2,400,000 63 02090413030 Leribe 2,280,000
10 02181113030 Leribe 2,145,000 37 02070223006 Leribe 1,785,000 64 02171013026 Leribe 1,950,000
11 06610523020 Mohale's Hoek 1,935,000 38 06570213056 Mohale's Hoek 2,415,000 119,565,000
12 02171013041 Leribe 2,040,000 39 02120713006 Leribe 2,115,000
13 05530613028 Mafeteng 1,830,000 40 05500313016 Mafeteng 2,010,000
14 05480113040 Mafeteng 1,620,000 41 03260713030 Berea 2,010,000
15 01030323031 Botha-Bothe 1,545,000 42 01010123037 Botha-Bothe 2,010,000
16 08700243042 Qacha's Nek 1,545,000 43 02060133017 Leribe 1,380,000
17 03200213005 Berea 1,740,000 44 02181113004 Leribe 1,680,000
18 02080313011 Leribe 2,355,000 45 01020223025 Botha-Bothe 2,430,000
19 01040413024 Botha-Bothe 1,560,000 46 02131211099 Leribe 1,800,000
20 05540713019 Mafeteng 1,965,000 47 05510413039 Mafeteng 1,800,000
21 05490213017 Mafeteng 1,965,000 48 02080313008 Leribe 2,025,000
22 05490212046 Mafeteng 1,965,000 49 05540713013 Mafeteng 2,025,000
23 03200213046 Berea 1,350,000 50 08690143054 Qacha's Nek 1,275,000
24 06610523034 Mohale's Hoek 1,350,000 51 02090423035 Leribe 1,395,000
25 01040413031 Botha-Bothe 1,755,000 52 05540713020 Mafeteng 1,395,000
26 04380113074 Maseru 3,210,000 53 02100523036 Leribe 1,815,000
27 02120713031 Leribe 1,860,000 54 10740333052 Thaba-Tseka 2,040,000
TOTAL INVESTMENT - YEAR 6
YEAR 6 YEAR 6 YEAR 6
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 48
PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 04380113065 Maseru 2,070,000 28 01040413021 Botha-Bothe 2,565,000 55 05540713009 Mafeteng 2,205,000
2 02100513012 Leribe 2,070,000 29 05490213019 Mafeteng 2,130,000 56 01040423043 Botha-Bothe 2,205,000
3 04420513067 Maseru 1,845,000 30 02080313010 Leribe 2,010,000 57 06560113038 Mohale's Hoek 1,965,000
4 04410413084 Maseru 1,845,000 31 10720133029 Thaba-Tseka 2,340,000 58 02100523041 Leribe 1,965,000
5 02171013019 Leribe 1,305,000 32 03250613011 Berea 1,905,000 59 05530613029 Mafeteng 1,965,000
6 04430613058 Maseru 1,080,000 33 02181113003 Leribe 1,905,000 60 02100513031 Leribe 1,515,000
7 07650641030 Quthing 1,080,000 34 02110613003 Leribe 1,905,000 61 05520513045 Mafeteng 1,605,000
8 01020213035 Botha-Bothe 2,505,000 35 01010123039 Botha-Bothe 1,905,000 62 07670442057 Quthing 1,395,000
9 03260713003 Berea 1,425,000 36 04450813007 Maseru 1,470,000 63 01040413028 Botha-Bothe 1,395,000
10 04390223018 Maseru 1,425,000 37 09770133035 Mokhotlong 1,470,000 64 06630743065 Mohale's Hoek 1,155,000
11 03220413018 Berea 1,425,000 38 04410423087 Maseru 1,350,000 65 03260713052 Berea 1,980,000
12 05510413058 Mafeteng 855,000 39 02120713004 Leribe 2,595,000 121,080,000
13 04430613048 Maseru 1,740,000 40 04460923039 Maseru 1,920,000
14 02171013025 Leribe 1,740,000 41 01040413040 Botha-Bothe 2,160,000
15 03260713045 Berea 1,860,000 42 05520513042 Mafeteng 1,485,000
16 02090423036 Leribe 2,520,000 43 02140813037 Leribe 1,575,000
17 05490213016 Mafeteng 2,520,000 44 04440712023 Maseru 1,575,000
18 01050511088 Botha-Bothe 1,320,000 45 02070223003 Leribe 2,385,000
19 07660343002 Quthing 2,100,000 46 02140813029 Leribe 2,175,000
20 01040413026 Botha-Bothe 2,535,000 47 05480113021 Mafeteng 2,865,000
21 02060133042 Leribe 1,875,000 48 01040413010 Botha-Bothe 2,640,000
22 06590313002 Mohale's Hoek 1,095,000 49 04380113078 Maseru 2,190,000
23 05540713065 Mafeteng 1,095,000 50 02100513034 Leribe 1,590,000
24 02100513033 Leribe 1,890,000 51 06610523026 Mohale's Hoek 1,140,000
25 03270813054 Berea 1,890,000 52 03190123030 Berea 1,830,000
26 04390223058 Maseru 1,455,000 53 01040413019 Botha-Bothe 2,415,000
27 02120713002 Leribe 3,465,000 54 02100513029 Leribe 2,205,000
YEAR 7 YEAR 7 YEAR 7
TOTAL INVESTMENT - YEAR 7
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 06560113001 Mohale's Hoek 1,860,000 28 05520513001 Mafeteng 1,185,000 55 04440713046 Maseru 2,085,000
2 02070223017 Leribe 2,445,000 29 03260713032 Berea 1,185,000 56 04440713045 Maseru 2,085,000
3 03260713025 Berea 1,530,000 30 03260713050 Berea 1,185,000 57 02181113012 Leribe 2,835,000
4 04450812021 Maseru 1,530,000 31 05480113038 Mafeteng 3,000,000 58 02140813047 Leribe 1,965,000
5 10750433051 Thaba-Tseka 1,530,000 32 03250613001 Berea 1,905,000 59 01030333058 Botha-Bothe 2,100,000
6 03230513037 Berea 1,620,000 33 02120713028 Leribe 2,040,000 60 06580811089 Mohale's Hoek 1,485,000
7 02181113027 Leribe 1,410,000 34 04450813064 Maseru 2,040,000 61 04430613030 Maseru 1,230,000
8 10720132048 Thaba-Tseka 2,715,000 35 09800433023 Mokhotlong 1,440,000 62 06590313018 Mohale's Hoek 1,230,000
9 09770133033 Mokhotlong 1,635,000 36 07670442058 Quthing 1,665,000 63 02151311001 Leribe 1,230,000
10 07650641007 Quthing 1,635,000 37 04380113068 Maseru 1,665,000 64 06560113016 Mohale's Hoek 1,230,000
11 01020213044 Botha-Bothe 1,635,000 38 07660343009 Quthing 2,295,000 65 01010123042 Botha-Bothe 1,230,000
12 05540713059 Mafeteng 1,635,000 39 02120713041 Leribe 2,295,000 66 04400323072 Maseru 975,000
13 02090413033 Leribe 1,635,000 40 02060133019 Leribe 2,520,000 118,800,000
14 02140813035 Leribe 1,545,000 41 02100523037 Leribe 2,520,000
15 02110613033 Leribe 1,545,000 42 10750433069 Thaba-Tseka 2,055,000
16 04390213008 Maseru 1,545,000 43 03270813058 Berea 2,535,000
17 04450813053 Maseru 1,545,000 44 03260713061 Berea 2,535,000
18 04471033055 Maseru 1,545,000 45 02070213020 Leribe 2,535,000
19 08690431033 Qacha's Nek 1,545,000 46 06560113006 Mohale's Hoek 1,455,000
20 04440713006 Maseru 2,010,000 47 03230513003 Berea 1,680,000
21 04420513053 Maseru 2,475,000 48 01020223024 Botha-Bothe 2,415,000
22 03270813049 Berea 2,475,000 49 02080313015 Leribe 1,695,000
23 02100513028 Leribe 1,425,000 50 02120713040 Leribe 1,695,000
24 05540713067 Mafeteng 1,650,000 51 05480113034 Mafeteng 1,695,000
25 01010123029 Botha-Bothe 1,185,000 52 01010113028 Botha-Bothe 1,215,000
26 04440712038 Maseru 1,185,000 53 05480113046 Mafeteng 2,430,000
27 06570811009 Mohale's Hoek 1,185,000 54 04460923029 Maseru 2,565,000
TOTAL INVESTMENT - YEAR 8
YEAR 8 YEAR 8 YEAR 8
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 05540713058 Mafeteng 2,115,000 28 06590343025 Mohale's Hoek 2,025,000 55 02171013046 Leribe 2,340,000
2 02171013047 Leribe 1,725,000 29 05500313002 Mafeteng 1,770,000 56 04450813012 Maseru 1,035,000
3 05510413027 Mafeteng 1,725,000 30 04420513062 Maseru 1,770,000 57 09780233068 Mokhotlong 1,830,000
4 03250612033 Berea 1,725,000 31 02080313002 Leribe 2,175,000 58 01030323006 Botha-Bothe 1,830,000
5 01040413029 Botha-Bothe 2,475,000 32 10720132050 Thaba-Tseka 2,175,000 59 06560113013 Mohale's Hoek 1,830,000
6 01040413012 Botha-Bothe 2,250,000 33 10720133054 Thaba-Tseka 2,040,000 60 03190123018 Berea 1,830,000
7 04450813016 Maseru 2,130,000 34 02160913080 Leribe 1,275,000 61 06560113036 Mohale's Hoek 3,045,000
8 02120713039 Leribe 1,995,000 35 02080313049 Leribe 1,275,000 62 09770132032 Mokhotlong 1,560,000
9 04380113085 Maseru 3,240,000 36 04410413006 Maseru 1,545,000 63 06560113031 Mohale's Hoek 1,560,000
10 09790333066 Mokhotlong 1,245,000 37 05480113035 Mafeteng 1,545,000 64 08690431017 Qacha's Nek 1,560,000
11 03260713046 Berea 1,245,000 38 09800433013 Mokhotlong 1,785,000 65 06580811079 missing 1,560,000
12 04440712029 Maseru 1,245,000 39 05530613058 Mafeteng 1,785,000 66 03281111020 Berea 1,560,000
13 01020223029 Botha-Bothe 1,740,000 40 03270813059 Berea 2,205,000 67 03210313026 Berea 1,560,000
14 02160913075 Leribe 1,740,000 41 05530613020 Mafeteng 1,560,000 68 03190113004 Berea 1,560,000
15 07640641025 Quthing 1,740,000 42 07640641001 Quthing 1,290,000 120,360,000
16 02120713035 Leribe 1,740,000 43 01030313004 Botha-Bothe 1,290,000
17 06600413004 Mohale's Hoek 1,740,000 44 05490213039 Mafeteng 1,290,000
18 01020223049 Botha-Bothe 2,145,000 45 01020213014 Botha-Bothe 1,290,000
19 04430613046 Maseru 1,515,000 46 04440712031 Maseru 1,290,000
20 02120713036 Leribe 2,775,000 47 02080323044 Leribe 1,290,000
21 02120713014 Leribe 1,755,000 48 04420513065 Maseru 1,800,000
22 05520513047 Mafeteng 1,755,000 49 05480113045 Mafeteng 1,800,000
23 07640143028 Quthing 1,755,000 50 02080313001 Leribe 1,020,000
24 02090413020 Leribe 1,755,000 51 04440713044 Maseru 2,220,000
25 02080313029 Leribe 2,655,000 52 04380113001 Maseru 2,235,000
26 02060133057 Leribe 1,260,000 53 01050511017 Botha-Bothe 1,305,000
27 01020223048 Botha-Bothe 2,160,000 54 02070223038 Leribe 1,305,000
YEAR 9 YEAR 9 YEAR 9
TOTAL INVESTMENT - YEAR 9
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 06560113011 Mohale's Hoek 1,560,000 28 04390213027 Maseru 2,295,000 55 03200213036 Berea 1,065,000
2 01030323027 Botha-Bothe 1,560,000 29 02110511048 Leribe 2,295,000 56 03230512026 Berea 1,065,000
3 09770132025 Mokhotlong 1,560,000 30 10720132041 Thaba-Tseka 2,400,000 57 04471231061 Maseru 1,065,000
4 02080313018 Leribe 1,560,000 31 07660343012 Quthing 1,590,000 58 03260713023 Berea 1,065,000
5 03250612038 Berea 1,560,000 32 02140813028 Leribe 1,590,000 59 07660343007 Quthing 1,065,000
6 02080313052 Leribe 1,560,000 33 02181113008 Leribe 1,590,000 60 03190123014 Berea 1,065,000
7 01050511018 Botha-Bothe 1,320,000 34 09790531030 Mokhotlong 1,590,000 61 05510423059 Mafeteng 1,065,000
8 02181113025 Leribe 1,320,000 35 01020223030 Botha-Bothe 1,590,000 62 09770133020 Mokhotlong 1,350,000
9 04460923011 Maseru 1,320,000 36 07660343003 Quthing 1,590,000 63 01050511084 Botha-Bothe 1,350,000
10 02171013039 Leribe 1,845,000 37 07650641053 Quthing 1,590,000 64 05540713050 Mafeteng 1,605,000
11 02100523043 Leribe 3,075,000 38 08690431031 Qacha's Nek 1,590,000 65 03190123028 Berea 1,605,000
12 03200212049 Berea 1,575,000 39 03200213053 Berea 1,590,000 66 05530613021 Mafeteng 1,605,000
13 02131211022 Leribe 1,575,000 40 01020213016 Botha-Bothe 1,590,000 67 03190123027 Berea 1,605,000
14 05510413029 Mafeteng 1,575,000 41 04450813061 Maseru 1,590,000 68 02120713009 Leribe 1,605,000
15 02090413021 Leribe 1,575,000 42 02110613054 Leribe 1,875,000 69 10750433008 Thaba-Tseka 1,605,000
16 06570811012 Mohale's Hoek 1,575,000 43 05520512030 Mafeteng 1,065,000 70 03260713062 Berea 1,605,000
17 02141211003 Leribe 1,575,000 44 07670442055 Quthing 1,065,000 71 02080313032 Leribe 1,605,000
18 03240413084 Berea 1,575,000 45 07640143029 Quthing 1,065,000 72 02181113002 Leribe 1,605,000
19 03210313022 Berea 1,575,000 46 04420512036 missing 1,065,000 73 04471033051 Maseru 1,605,000
20 03200213002 Berea 1,575,000 47 07640641019 Quthing 1,065,000 74 04390223017 Maseru 1,605,000
21 06580811094 Mohale's Hoek 1,575,000 48 06610523028 Mohale's Hoek 1,065,000 75 05520523014 Mafeteng 1,605,000
22 02060133010 Leribe 1,575,000 49 03200212011 Berea 1,065,000 76 03260713051 missing 1,605,000
23 09800433010 Mokhotlong 1,575,000 50 04420513059 Maseru 1,065,000 77 07660343011 Quthing 1,890,000
24 02090413023 Leribe 1,860,000 51 02171013050 Leribe 1,065,000 78 01020213045 Botha-Bothe 1,890,000
25 02181113019 Leribe 1,860,000 52 02060133063 Leribe 1,065,000 79 05520513043 Mafeteng 1,890,000
26 02070213009 Leribe 1,335,000 53 03210313049 Berea 1,065,000 119,355,000
27 03190123020 Berea 1,335,000 54 10720133055 Thaba-Tseka 1,065,000
TOTAL INVESTMENT - YEAR 10
YEAR 10 YEAR 10 YEAR 10
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 03210313053 Berea 2,430,000 28 02131211014 Leribe 1,635,000 55 04471033053 Maseru 1,395,000
2 03230513032 Berea 2,430,000 29 02151311057 Leribe 1,635,000 56 03210313040 Berea 1,395,000
3 03220413005 Berea 1,365,000 30 02110613060 Leribe 1,635,000 57 02080323031 Leribe 1,395,000
4 06560113028 Mohale's Hoek 1,365,000 31 05540713053 Mafeteng 1,635,000 58 05480113047 Mafeteng 1,395,000
5 06590343026 Mohale's Hoek 1,905,000 32 04380113063 Maseru 1,635,000 59 02060133049 Leribe 1,665,000
6 02090413011 Leribe 1,080,000 33 10720132044 Thaba-Tseka 1,635,000 60 04420513070 Maseru 1,665,000
7 02171013035 Leribe 1,620,000 34 09770133019 Mokhotlong 1,635,000 61 06570811046 Mohale's Hoek 1,665,000
8 03260713026 Berea 1,620,000 35 05510413049 Mafeteng 1,635,000 62 02060133007 Leribe 1,110,000
9 02160913076 Leribe 1,620,000 36 06610523035 Mohale's Hoek 1,635,000 63 07640641020 Quthing 1,110,000
10 01040413005 Botha-Bothe 1,620,000 37 03230513038 Berea 1,635,000 64 05540713049 Mafeteng 1,665,000
11 02151311055 Leribe 1,080,000 38 02080323036 Leribe 1,380,000 65 05540713012 Mafeteng 1,665,000
12 04471231062 Maseru 1,080,000 39 04410413073 Maseru 1,095,000 66 02131211090 Leribe 1,110,000
13 05490213001 Mafeteng 1,080,000 40 02160913074 Leribe 1,095,000 67 03250613018 Berea 1,110,000
14 05490213014 Mafeteng 1,080,000 41 02110613006 Leribe 1,095,000 68 01020213039 Botha-Bothe 1,665,000
15 08710431018 Qacha's Nek 1,620,000 42 05520523021 Mafeteng 1,095,000 69 01030323018 Botha-Bothe 1,110,000
16 01040413030 Botha-Bothe 1,620,000 43 04390213013 Maseru 1,095,000 70 01050511009 Botha-Bothe 1,110,000
17 01030323026 missing 1,620,000 44 06600443036 Mohale's Hoek 1,095,000 71 05520513048 Mafeteng 1,665,000
18 10750433066 Thaba-Tseka 1,620,000 45 03190123019 Berea 1,095,000 72 01020213005 Botha-Bothe 1,110,000
19 02181113046 Leribe 1,620,000 46 06570213060 Mohale's Hoek 1,935,000 73 10740333055 Thaba-Tseka 1,665,000
20 02060133031 Leribe 1,080,000 47 02181113047 Leribe 1,935,000 74 06600443038 Mohale's Hoek 1,110,000
21 06610523040 Mohale's Hoek 1,080,000 48 05530613047 Mafeteng 1,650,000 75 03200213054 Berea 1,110,000
22 04460913006 Maseru 1,620,000 49 02100513003 Leribe 1,650,000 76 06560113030 Mohale's Hoek 1,665,000
23 02181113026 Leribe 2,460,000 50 07650641054 Quthing 1,650,000 77 04460913005 Maseru 1,665,000
24 06570213064 Mohale's Hoek 1,920,000 51 04390213002 Maseru 1,650,000 78 03260713056 Berea 1,665,000
25 02120713021 Leribe 1,920,000 52 01040423042 Botha-Bothe 1,650,000 79 05520523013 Mafeteng 1,665,000
26 03210313044 Berea 1,920,000 53 02140813048 Leribe 1,650,000 80 03190123012 Berea 1,110,000
27 02110613050 Leribe 1,635,000 54 02141211009 Leribe 1,395,000 81 02070223042 Leribe 1,110,000
121,440,000
YEAR 11 YEAR 11 YEAR 11
TOTAL INVESTMENT - YEAR 11
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 04400323054 Maseru 1,110,000 28 05510413044 Mafeteng 1,125,000 55 04450823067 Maseru 1,140,000
2 03230513054 Berea 1,110,000 29 09790531001 Mokhotlong 1,125,000 56 02100513002 Leribe 1,140,000
3 10720133036 Thaba-Tseka 1,965,000 30 03190123039 Berea 1,125,000 57 09790333067 Mokhotlong 1,140,000
4 04380113073 Maseru 1,965,000 31 03210313057 Berea 1,125,000 58 05510413041 Mafeteng 1,710,000
5 01020213008 Botha-Bothe 1,965,000 32 03210313011 Berea 1,425,000 59 10750433007 Thaba-Tseka 1,140,000
6 02120713029 Leribe 1,965,000 33 09770133012 Mokhotlong 1,425,000 60 04390223014 Maseru 1,710,000
7 04410413080 Maseru 1,965,000 34 05480113007 Mafeteng 1,425,000 61 04460913001 Maseru 1,140,000
8 10740631032 Thaba-Tseka 1,410,000 35 01030323008 Botha-Bothe 1,695,000 62 02100513006 Leribe 2,025,000
9 02120713025 Leribe 2,535,000 36 06580811081 Mohale's Hoek 1,695,000 63 02120713015 Leribe 2,025,000
10 05540713068 Mafeteng 1,680,000 37 03200213007 Berea 1,695,000 64 03260713005 Berea 2,025,000
11 03291111045 missing 1,680,000 38 02181113049 Leribe 1,695,000 65 02090413034 Leribe 2,025,000
12 04410423096 Maseru 1,680,000 39 03250612028 Berea 1,695,000 66 05500323037 Mafeteng 2,025,000
13 04440713022 Maseru 1,680,000 40 04440713005 Maseru 1,695,000 67 02140813034 Leribe 1,725,000
14 09790333065 Mokhotlong 1,680,000 41 02151311018 Leribe 1,995,000 68 05530613006 Mafeteng 1,725,000
15 06560113042 Mohale's Hoek 1,680,000 42 05500313001 Mafeteng 1,995,000 69 03200213010 Berea 1,725,000
16 09800433003 Mokhotlong 1,680,000 43 06600443026 Mohale's Hoek 1,995,000 70 01020213041 Botha-Bothe 1,725,000
17 04440713043 Maseru 1,680,000 44 05520523011 Mafeteng 1,440,000 71 02100523025 Leribe 1,725,000
18 05500323035 Mafeteng 1,680,000 45 06590313013 Mohale's Hoek 3,150,000 72 10720133030 Thaba-Tseka 1,725,000
19 03210313023 Berea 1,980,000 46 05500313012 Mafeteng 1,140,000 73 01040413027 Botha-Bothe 1,725,000
20 05510413040 Mafeteng 1,980,000 47 05530613023 Mafeteng 1,710,000 74 03190123009 Berea 1,725,000
21 06560113020 Mohale's Hoek 1,980,000 48 02151311009 Leribe 1,710,000 120,045,000
22 04371111013 Maseru 1,125,000 49 02131211085 Leribe 1,140,000
23 03230512016 Berea 1,125,000 50 04410412037 Maseru 1,140,000
24 06600443041 Mohale's Hoek 1,125,000 51 03270813052 Berea 1,710,000
25 04410423086 Maseru 1,125,000 52 01030323014 missing 1,710,000
26 02160913083 Leribe 1,125,000 53 03250613014 Berea 1,710,000
27 02100513010 Leribe 1,125,000 54 02100513004 Leribe 1,710,000
TOTAL INVESTMENT - YEAR 12
YEAR 12 YEAR 12 YEAR 12
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 05510413042 Mafeteng 1,725,000 28 03250613015 Berea 1,740,000 55 06570811011 Mohale's Hoek 1,770,000
2 05520523019 Mafeteng 1,725,000 29 10720132013 Thaba-Tseka 1,470,000 56 01040413009 Botha-Bothe 1,770,000
3 04390223016 Maseru 1,725,000 30 06610523025 Mohale's Hoek 1,470,000 57 05500313004 Mafeteng 1,770,000
4 09800433022 Mokhotlong 1,455,000 31 05480113043 Mafeteng 1,470,000 58 02090413025 Leribe 1,770,000
5 01020213036 Botha-Bothe 1,455,000 32 02120713037 Leribe 2,325,000 59 01040413025 Botha-Bothe 1,770,000
6 02080313019 Leribe 1,455,000 33 03200213004 Berea 2,325,000 60 04410413083 Maseru 1,770,000
7 09780233059 Mokhotlong 1,455,000 34 03220413010 Berea 2,640,000 61 02181113029 Leribe 1,770,000
8 06610523027 Mohale's Hoek 2,610,000 35 07660343008 Quthing 1,170,000 62 04450813062 Maseru 1,770,000
9 02171013020 Leribe 2,610,000 36 03220413004 Berea 1,755,000 63 03230513035 Berea 1,770,000
10 02110613049 Leribe 1,155,000 37 04450812047 Maseru 1,170,000 64 02090423037 Leribe 1,770,000
11 07650641005 Quthing 1,155,000 38 02070223035 Leribe 2,340,000 65 03260713034 Berea 2,085,000
12 02131211002 Leribe 1,155,000 39 02131211001 Leribe 1,170,000 66 04420513063 Maseru 1,185,000
13 03230513049 Berea 1,155,000 40 03230513052 Berea 1,755,000 67 03291111083 Berea 1,185,000
14 02110613030 Leribe 1,155,000 41 02171013024 Leribe 2,340,000 68 08710431015 Qacha's Nek 1,185,000
15 05510413056 Mafeteng 1,155,000 42 10720132040 Thaba-Tseka 1,755,000 69 06560113007 Mohale's Hoek 1,185,000
16 04460923004 Maseru 1,155,000 43 06600443034 Mohale's Hoek 1,170,000 70 04471231057 Maseru 1,185,000
17 03190123037 Berea 1,155,000 44 03270813061 Berea 1,170,000 71 05490213037 Mafeteng 1,185,000
18 02060133046 Leribe 2,040,000 45 03230513051 Berea 1,170,000 72 02070213016 Leribe 1,185,000
19 09800433018 Mokhotlong 2,040,000 46 02060133029 Leribe 1,170,000 119,295,000
20 02171013037 Leribe 2,040,000 47 05490213042 Mafeteng 2,340,000
21 02080313003 Leribe 1,740,000 48 06600443030 Mohale's Hoek 1,755,000
22 02070213022 Leribe 1,740,000 49 09800433014 Mokhotlong 1,170,000
23 02100513020 Leribe 1,740,000 50 10740333058 Thaba-Tseka 2,340,000
24 01030313005 Botha-Bothe 1,740,000 51 08690143047 Qacha's Nek 2,655,000
25 04420513077 Maseru 1,740,000 52 02080313024 Leribe 2,070,000
26 04450813052 Maseru 1,740,000 53 03260713033 Berea 2,070,000
27 02181113051 Leribe 1,740,000 54 01050511010 Botha-Bothe 1,485,000
YEAR 13 YEAR 13 YEAR 13
TOTAL INVESTMENT - YEAR 13
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
AETS Consortium 55
PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 02131211072 Leribe 1,185,000 28 05530811054 Mafeteng 1,200,000 55 04390213010 Maseru 1,215,000
2 04450813051 Maseru 1,185,000 29 10740631048 Thaba-Tseka 1,800,000 56 03220413002 Berea 1,215,000
3 07640641004 Quthing 1,185,000 30 02110613029 Leribe 1,800,000 57 03210313041 Berea 1,215,000
4 05500313013 Mafeteng 1,185,000 31 04440712033 Maseru 1,200,000 58 05500313010 Mafeteng 1,215,000
5 09790531003 Mokhotlong 1,185,000 32 03250613002 Berea 1,200,000 59 06560113010 Mohale's Hoek 1,215,000
6 04400323059 Maseru 1,185,000 33 03230512027 Berea 1,800,000 60 02151311003 Leribe 1,215,000
7 02070223040 Leribe 1,185,000 34 05530613005 Mafeteng 1,800,000 61 10720133026 Thaba-Tseka 1,215,000
8 01010123018 Botha-Bothe 1,185,000 35 03220413017 Berea 2,400,000 62 03250613024 Berea 1,215,000
9 04430612039 Maseru 1,500,000 36 03260713053 Berea 1,800,000 63 03220413012 Berea 1,215,000
10 05490213012 Mafeteng 2,100,000 37 10730233002 Thaba-Tseka 2,130,000 64 05540713005 Mafeteng 1,215,000
11 03230513050 Berea 2,100,000 38 03230513004 Berea 1,530,000 65 02100523014 Leribe 2,145,000
12 01020213043 Botha-Bothe 1,785,000 39 05480113002 Mafeteng 1,530,000 66 06570213063 Mohale's Hoek 1,830,000
13 05500313018 Mafeteng 1,785,000 40 06590313011 Mohale's Hoek 1,815,000 67 10740631028 Thaba-Tseka 1,830,000
14 10720133051 Thaba-Tseka 1,785,000 41 02120713010 Leribe 1,815,000 68 01020223047 Botha-Bothe 1,830,000
15 02171013023 Leribe 1,785,000 42 04420513064 Maseru 1,815,000 69 02060133015 Leribe 1,830,000
16 05530613009 Mafeteng 1,785,000 43 02080313033 Leribe 1,815,000 70 06600443029 Mohale's Hoek 1,830,000
17 03270813036 Berea 2,385,000 44 02080313023 Leribe 1,815,000 71 01050511086 Botha-Bothe 1,545,000
18 01050511012 Botha-Bothe 1,515,000 45 04420513085 Maseru 1,815,000 72 09780233070 Mokhotlong 1,545,000
19 01050511097 Botha-Bothe 2,115,000 46 08690133065 Qacha's Nek 1,815,000 73 03230513039 Berea 1,545,000
20 03241011087 Berea 1,200,000 47 02070223018 Leribe 1,815,000 74 02080323039 Leribe 2,445,000
21 02060133020 Leribe 1,800,000 48 01040413034 Botha-Bothe 1,815,000 120,060,000
22 04390213005 Maseru 2,400,000 49 01040413036 Botha-Bothe 1,815,000
23 02141211021 Leribe 1,800,000 50 04440713021 Maseru 1,815,000
24 04390213023 Maseru 1,800,000 51 07640641012 Quthing 1,215,000
25 02110511047 Leribe 1,800,000 52 02110613052 Leribe 1,215,000
26 02140813039 Leribe 1,800,000 53 02110613032 Leribe 1,215,000
27 04380113076 Maseru 1,800,000 54 02120713001 Leribe 1,215,000
TOTAL INVESTMENT - YEAR 14
YEAR 14 YEAR 14 YEAR 14
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 01020223050 Botha-Bothe 2,160,000 28 02171013040 Leribe 2,175,000 55 02151311008 Leribe 1,260,000
2 02151311014 Leribe 1,845,000 29 04440713009 Maseru 2,175,000 56 01050511083 Botha-Bothe 1,260,000
3 02131211025 Leribe 1,845,000 30 04390213030 Maseru 2,475,000 57 02090412057 Leribe 2,520,000
4 10740631031 Thaba-Tseka 1,230,000 31 02070213013 Leribe 1,860,000 58 04420513069 Maseru 1,260,000
5 06590343032 Mohale's Hoek 1,845,000 32 06570213065 Mohale's Hoek 1,860,000 59 02151311006 Leribe 1,260,000
6 04450813019 missing 2,460,000 33 02100513017 Leribe 1,860,000 60 07640641026 Quthing 1,260,000
7 01040413020 Botha-Bothe 2,460,000 34 03220413021 Berea 1,860,000 61 01030323029 Botha-Bothe 1,260,000
8 04450812005 Maseru 1,230,000 35 03250612034 Berea 2,190,000 62 04471231063 Maseru 1,260,000
9 03250613013 Berea 1,230,000 36 04440713002 Maseru 3,105,000 63 07650641004 Quthing 1,890,000
10 01050511080 Botha-Bothe 1,845,000 37 03200212045 Berea 1,245,000 64 05530613001 Mafeteng 1,260,000
11 02131211008 Leribe 1,845,000 38 03291111075 Berea 1,245,000 65 02060133018 Leribe 1,890,000
12 01040413014 Botha-Bothe 1,230,000 39 02151311016 Leribe 1,245,000 66 02110613004 Leribe 1,890,000
13 05520513046 Mafeteng 1,845,000 40 02171013018 Leribe 1,245,000 67 02151311015 Leribe 1,260,000
14 03200213006 Berea 1,230,000 41 02110613028 Leribe 1,245,000 68 04390213024 Maseru 1,890,000
15 10720132009 Thaba-Tseka 1,230,000 42 03260713063 Berea 1,245,000 69 02171013030 Leribe 1,260,000
16 03210313037 Berea 1,230,000 43 02090413027 Leribe 1,245,000 70 03270813053 Berea 1,890,000
17 05520523016 Mafeteng 1,230,000 44 05510413036 Mafeteng 1,245,000 71 02080313025 Leribe 1,890,000
18 04390223019 Maseru 1,230,000 45 03210313046 Berea 1,245,000 72 03190123007 Berea 1,260,000
19 04430612036 Maseru 1,230,000 46 05520523007 Mafeteng 1,245,000 73 02120713003 Leribe 2,520,000
20 06630743068 Mohale's Hoek 1,230,000 47 04420513082 missing 1,245,000 74 03260713049 Berea 1,260,000
21 02181113013 Leribe 1,845,000 48 06600413001 Mohale's Hoek 1,245,000 75 06590313015 Mohale's Hoek 1,260,000
22 10750433009 Thaba-Tseka 1,845,000 49 04440713003 Maseru 1,245,000 120,675,000
23 02080323046 Leribe 1,845,000 50 04400323085 Maseru 1,245,000
24 03250613008 Berea 1,230,000 51 02100513035 Leribe 1,875,000
25 06560113026 Mohale's Hoek 1,230,000 52 02181113017 Leribe 1,875,000
26 05490212028 Mafeteng 1,230,000 53 03260713055 Berea 1,875,000
27 02171013032 Leribe 2,175,000 54 05530613050 Mafeteng 2,220,000
YEAR 15 YEAR 15 YEAR 15
TOTAL INVESTMENT - YEAR 15
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 04450813065 Maseru 1,890,000 28 10750432073 Thaba-Tseka 1,290,000 55 08690143062 Qacha's Nek 1,305,000
2 06560113023 Mohale's Hoek 1,260,000 29 04410413074 Maseru 1,290,000 56 04380113064 Maseru 1,305,000
3 02100523044 Leribe 2,535,000 30 04450813054 Maseru 1,290,000 57 04420513084 Maseru 1,305,000
4 02100513026 Leribe 2,535,000 31 05530811013 Mafeteng 1,290,000 58 03250613021 Berea 1,305,000
5 04380113079 Maseru 2,535,000 32 02100523040 Leribe 1,290,000 59 03230513053 Berea 1,305,000
6 03200212041 Berea 1,905,000 33 03190123034 Berea 1,290,000 60 02120713042 Leribe 2,310,000
7 02070213011 Leribe 1,905,000 34 05540713014 Mafeteng 1,290,000 61 02160913085 Leribe 1,965,000
8 02070213012 Leribe 1,905,000 35 04420513075 Maseru 1,290,000 62 03230513036 Berea 1,965,000
9 03260713018 Berea 1,905,000 36 06590343039 Mohale's Hoek 1,290,000 63 06560113034 Mohale's Hoek 1,965,000
10 01020223020 Botha-Bothe 2,250,000 37 02060133005 Leribe 1,935,000 64 03220413019 Berea 1,965,000
11 02171013034 Leribe 2,250,000 38 05500313020 Mafeteng 1,290,000 65 03220413031 Berea 1,965,000
12 01030313003 Botha-Bothe 1,275,000 39 02070223041 Leribe 1,935,000 66 04420513068 Maseru 1,980,000
13 06590343022 Mohale's Hoek 1,275,000 40 03270813035 Berea 3,240,000 67 04450813050 Maseru 1,320,000
14 02160913081 Leribe 1,275,000 41 02070223031 Leribe 2,595,000 68 03200212039 Berea 1,320,000
15 03190123036 Berea 1,275,000 42 01020213038 Botha-Bothe 1,950,000 69 03200213031 Berea 1,980,000
16 02110613001 Leribe 1,275,000 43 03230513001 Berea 1,950,000 70 03270813050 Berea 1,980,000
17 02100523039 Leribe 1,920,000 44 03190123035 Berea 1,950,000 71 03210313010 Berea 1,980,000
18 01020223023 Botha-Bothe 1,920,000 45 02120713008 Leribe 2,295,000 119,610,000
19 02171013048 Leribe 1,920,000 46 02100513027 Leribe 1,305,000
20 01020213007 Botha-Bothe 1,920,000 47 06570811010 Mohale's Hoek 1,305,000
21 02060132050 Leribe 1,290,000 48 04381111038 Maseru 1,305,000
22 02140813027 Leribe 1,935,000 49 03241011083 Berea 1,305,000
23 04450813008 Maseru 1,290,000 50 02080313012 Leribe 1,305,000
24 02141211020 Leribe 1,290,000 51 05530613052 Mafeteng 1,305,000
25 07650641033 Quthing 2,580,000 52 10720133059 Thaba-Tseka 1,305,000
26 07640641002 Quthing 1,290,000 53 04390213007 Maseru 1,305,000
27 04390213051 Maseru 1,290,000 54 02060133045 Leribe 1,305,000
TOTAL INVESTMENT - YEAR 16
YEAR 16 YEAR 16 YEAR 16
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 05490213005 Mafeteng 1,320,000 28 02060133066 Leribe 2,010,000 55 03250613005 Berea 1,365,000
2 04420513061 Maseru 1,320,000 29 10720133008 Thaba-Tseka 2,010,000 56 05520512024 Mafeteng 1,365,000
3 02100513009 Leribe 1,320,000 30 05540713018 Mafeteng 1,350,000 57 04311111027 Maseru 1,365,000
4 02140813044 Leribe 1,320,000 31 02160913087 Leribe 2,025,000 58 05550811080 Mafeteng 2,730,000
5 02171013028 Leribe 1,320,000 32 05540713008 Mafeteng 1,350,000 59 09790531004 Mokhotlong 1,365,000
6 05530613011 Mafeteng 1,980,000 33 10720133057 Thaba-Tseka 1,350,000 60 05530613053 Mafeteng 1,365,000
7 02171013021 Leribe 1,320,000 34 04410412036 Maseru 1,350,000 61 10730233001 Thaba-Tseka 1,365,000
8 02090413031 Leribe 1,980,000 35 02131211016 Leribe 2,025,000 62 02141211001 Leribe 1,365,000
9 02080313026 Leribe 1,320,000 36 04450813018 Maseru 2,025,000 63 05520523010 Mafeteng 1,365,000
10 02090413032 Leribe 1,980,000 37 04410413001 Maseru 1,350,000 64 01030323028 Botha-Bothe 1,365,000
11 03220413008 Berea 1,320,000 38 06610523033 Mohale's Hoek 1,350,000 65 03250613016 Berea 1,365,000
12 02100523019 Leribe 1,320,000 39 06560113032 Mohale's Hoek 1,350,000 66 02131211096 Leribe 2,730,000
13 05510423025 Mafeteng 1,320,000 40 04390213028 Maseru 1,350,000 67 02060133047 Leribe 1,365,000
14 05520513006 Mafeteng 1,995,000 41 05540713060 Mafeteng 1,350,000 68 05530613008 Mafeteng 1,365,000
15 02090413039 Leribe 1,995,000 42 04460923041 Maseru 1,350,000 69 02060133004 Leribe 1,365,000
16 03270813033 Berea 2,670,000 43 10750433065 Thaba-Tseka 1,350,000 70 02181113023 Leribe 2,055,000
17 04471231065 Maseru 1,335,000 44 01040423041 Botha-Bothe 2,700,000 71 02070213010 Leribe 2,055,000
18 09770133057 Mokhotlong 1,335,000 45 03250613025 Berea 2,025,000 72 01030323024 Botha-Bothe 2,055,000
19 02070223005 Leribe 1,335,000 46 05480113036 Mafeteng 1,350,000 119,190,000
20 03190123006 Berea 1,335,000 47 03210323058 Berea 1,350,000
21 05490213035 Mafeteng 1,335,000 48 03220413015 Berea 1,350,000
22 05540713062 Mafeteng 1,335,000 49 01040413016 Botha-Bothe 2,715,000
23 02080323043 Leribe 1,335,000 50 02160913066 Leribe 2,040,000
24 04430613052 Maseru 2,010,000 51 01040413002 Botha-Bothe 2,040,000
25 10740333053 Thaba-Tseka 2,010,000 52 02140813038 Leribe 2,040,000
26 02171013049 Leribe 2,010,000 53 02110613010 Leribe 2,040,000
27 04410413082 Maseru 2,010,000 54 01040413035 Botha-Bothe 2,040,000
YEAR 17 YEAR 17 YEAR 17
TOTAL INVESTMENT - YEAR 17
Lesotho Electrification Master Plan Grid Development Plan Report (Draft)
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 02090413017 Leribe 2,055,000 28 02100513016 Leribe 2,085,000 55 04400323060 Maseru 1,410,000
2 03260713060 Berea 2,055,000 29 07660641011 Quthing 1,395,000 56 01040413032 Botha-Bothe 1,410,000
3 04410413004 Maseru 2,070,000 30 05510412032 Mafeteng 1,395,000 57 03220413001 Berea 1,410,000
4 03220413006 Berea 2,070,000 31 02090413014 Leribe 1,395,000 58 08690133046 Qacha's Nek 1,410,000
5 01010123046 Botha-Bothe 1,380,000 32 04410412039 missing 1,395,000 59 01030333057 Botha-Bothe 1,410,000
6 03200212042 Berea 1,380,000 33 02110613037 Leribe 1,395,000 60 04390213001 Maseru 1,410,000
7 05510413028 Mafeteng 1,380,000 34 08710431017 Qacha's Nek 1,395,000 61 03190123011 Berea 1,410,000
8 04390213004 Maseru 2,070,000 35 03190123005 Berea 1,395,000 62 04460923008 Maseru 2,115,000
9 03260713004 Berea 1,380,000 36 01030323015 Botha-Bothe 1,395,000 63 03250612032 Berea 1,410,000
10 06570811049 Mohale's Hoek 1,380,000 37 10740631005 Thaba-Tseka 1,395,000 64 04460923023 Maseru 1,410,000
11 01020223022 Botha-Bothe 2,070,000 38 01010123045 Botha-Bothe 1,395,000 65 03220413033 Berea 1,410,000
12 02120713030 Leribe 1,380,000 39 03250612027 Berea 1,395,000 66 03270813048 Berea 3,540,000
13 01040413023 Botha-Bothe 2,070,000 40 05520513040 Mafeteng 1,395,000 67 05500313006 Mafeteng 2,130,000
14 05530613056 Mafeteng 1,380,000 41 01010113020 Botha-Bothe 1,395,000 68 02140813031 Leribe 2,130,000
15 01010113026 Botha-Bothe 1,380,000 42 04460923037 Maseru 1,395,000 69 05500313014 Mafeteng 2,130,000
16 10730233003 Thaba-Tseka 1,380,000 43 04380113059 Maseru 2,100,000 70 07650641001 Quthing 2,130,000
17 03200213009 Berea 2,070,000 44 02070223032 Leribe 2,100,000 71 04450813010 Maseru 1,425,000
18 05520513005 Mafeteng 2,070,000 45 06590343033 Mohale's Hoek 2,115,000 120,795,000
19 02100513013 Leribe 2,070,000 46 04410423088 Maseru 1,410,000
20 06590343044 Mohale's Hoek 1,380,000 47 02060133062 Leribe 1,410,000
21 03250613020 Berea 1,380,000 48 02120713016 Leribe 2,820,000
22 03250613007 Berea 1,380,000 49 05530811040 Mafeteng 1,410,000
23 02110613008 Leribe 1,380,000 50 02171013051 Leribe 1,410,000
24 03270813047 Berea 2,085,000 51 02090413004 Leribe 2,820,000
25 02140813032 Leribe 2,085,000 52 02090413022 Leribe 2,115,000
26 04380113062 Maseru 2,085,000 53 04380113003 Maseru 1,410,000
27 03210313024 Berea 2,085,000 54 02090413012 Leribe 1,410,000
TOTAL INVESTMENT - YEAR 18
YEAR 18 YEAR 18 YEAR 18
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 04390213035 Maseru 1,425,000 28 01050511085 Botha-Bothe 1,455,000 55 03190123025 Berea 1,485,000
2 03210313015 Berea 1,425,000 29 06580811077 Mohale's Hoek 1,455,000 56 02131211015 Leribe 2,235,000
3 03210313002 Berea 1,425,000 30 02140813030 Leribe 1,455,000 57 03250613009 Berea 2,235,000
4 03271111027 Berea 1,425,000 31 02080313014 Leribe 1,455,000 58 09780233064 Mokhotlong 1,500,000
5 03210313036 Berea 1,425,000 32 05530613051 Mafeteng 1,455,000 59 03270813057 Berea 3,000,000
6 04450813066 Maseru 1,425,000 33 03190123008 Berea 1,455,000 60 02160913073 Leribe 2,250,000
7 07670443052 Quthing 1,425,000 34 02060132052 Leribe 3,660,000 61 06570811005 Mohale's Hoek 2,250,000
8 09800433027 Mokhotlong 1,425,000 35 02110613035 Leribe 1,470,000 62 03260713044 Berea 1,500,000
9 05490213018 Mafeteng 1,425,000 36 02140813043 Leribe 2,205,000 63 02181113053 Leribe 1,500,000
10 02120713043 Leribe 2,145,000 37 05520513002 Mafeteng 1,470,000 64 02160913086 Leribe 2,250,000
11 06580811083 Mohale's Hoek 1,440,000 38 09780233062 Mokhotlong 1,470,000 65 02090413024 Leribe 1,500,000
12 04390213034 Maseru 2,160,000 39 02151311017 Leribe 1,470,000 66 06570213058 Mohale's Hoek 1,500,000
13 02141211016 Leribe 1,440,000 40 02151311004 Leribe 1,470,000 67 02060133028 Leribe 1,500,000
14 06590343038 Mohale's Hoek 1,440,000 41 02181113024 Leribe 1,470,000 68 02060133006 Leribe 1,500,000
15 01040413013 Botha-Bothe 1,440,000 42 10740631006 Thaba-Tseka 1,470,000 69 05530613003 Mafeteng 1,500,000
16 02161311065 Leribe 1,440,000 43 04380113002 Maseru 2,205,000 70 02181113016 Leribe 1,500,000
17 04431111022 Maseru 1,440,000 44 05530613007 Mafeteng 1,470,000 71 04460923042 Maseru 1,500,000
18 10720133058 Thaba-Tseka 1,440,000 45 04390223021 Maseru 1,470,000 72 04440713020 Maseru 2,250,000
19 02181112043 Leribe 1,440,000 46 01030323016 Botha-Bothe 1,470,000 120,210,000
20 02060133059 Leribe 1,440,000 47 03270813034 Berea 2,955,000
21 03250613006 Berea 1,440,000 48 03250613012 Berea 1,485,000
22 03190123026 Berea 1,440,000 49 09790531010 Mokhotlong 1,485,000
23 10740631001 Thaba-Tseka 1,440,000 50 02100523038 Leribe 2,970,000
24 03190123051 Berea 1,440,000 51 03210313021 Berea 1,485,000
25 03220413032 Berea 2,160,000 52 01020213042 Botha-Bothe 1,485,000
26 05530811014 Mafeteng 1,455,000 53 03190123024 Berea 1,485,000
27 02141211007 Leribe 1,455,000 54 03190123031 Berea 1,485,000
YEAR 19 YEAR 19 YEAR 19
TOTAL INVESTMENT - YEAR 19
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PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M] PRIORITY EA CODE DISTRICT COST [M]
1 02090413007 Leribe 2,265,000 10 02070223001 Leribe 1,515,000 19 02110511012 Leribe 1,530,000
2 05490213011 Mafeteng 2,265,000 11 02120713012 Leribe 2,280,000 20 02100513030 Leribe 1,530,000
3 03260713007 Berea 2,265,000 12 04390213031 Maseru 2,280,000 21 03200213001 Berea 1,530,000
4 07670442059 Quthing 1,515,000 13 02090423038 Leribe 2,280,000 22 02060133016 Leribe 1,530,000
5 10740631030 Thaba-Tseka 1,515,000 14 06590313009 Mohale's Hoek 2,295,000 23 05500322030 Mafeteng 1,530,000
6 04390213022 Maseru 1,515,000 15 06570213066 Mohale's Hoek 1,530,000 24 01020213004 Botha-Bothe 1,530,000
7 03230513045 Berea 1,515,000 16 01030323020 Botha-Bothe 2,295,000 25 01010123038 Botha-Bothe 1,530,000
8 09800433012 Mokhotlong 1,515,000 17 04380113066 Maseru 1,530,000 26 03220413013 Berea 1,530,000
9 07650641056 Quthing 3,030,000 18 10750432070 Thaba-Tseka 1,530,000 47,175,000TOTAL INVESTMENT - YEAR 20
YEAR 20 YEAR 20 YEAR 20